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Irish Cement Limited
Platin Works
IPPC Licence Reg. No. P0030-04
Annual Environmental Report 2012
Table of Contents.
1. Introduction
1.1 Licence Register Number 1.2 Name and Location of Site
1.3 Brief Description of activities at the site 1.4 Company Environmental Policy
1.5 Company Organisation Chart for Environmental Management
2. Environmental Performance
2.1 Resource Consumption Summary
2.2 Emissions to Atmosphere
2.3 Emissions to Water
2.4 Noise
2.5 Waste management
2.6 Complaints
2.7 Bund Integrity Report
2.8 Underground Pipe Testing 2.9 Ambient Monitoring – Dust Deposition 2.10 Reported Incidents Summary
3. Report on Environmental Management Plan 2012/2013 4. Environmental Management Plan 2013/2014 5. Noise Management Plan 6. Receiving Water Testing 7. Energy Efficiency Audit Report Summary 8. E-PRTR
1. Introduction
Introduction
1.1 Licence Register Number This Annual Environmental Report for Platin Cement Works is issued to comply with Condition 2.2.2 of IPPC Licence No. P0030-04 issued by the Environmental Protection Agency in January 2011. The Report summarises the environmental performance of Platin Cement Works for 2012. The Report also reviews the 2012/2013 Environmental Management Plan and outlines the 2013/2014 Environmental Management Plan. The Report indicates ongoing compliance with IPPC Licence No. P0030-04. 1.2 Name and Location of Site Irish Cement Limited, Platin Works is situated in Platin, Drogheda, Co. Meath. 1.3 Brief Description of Activities at the Site Irish Cement Limited, Platin Works manufactures cement from raw materials. This involves quarrying, crushing, milling and heating processes as well as transport. This gives rise to associated noise and particulate emissions, as well as other atmospheric emissions, water emissions and various types of waste.
1.4 Company Sustainability Policy
Irish Cement is committed to providing cement products for use in construction which are sustainable. To this end we have developed a Responsible Sourcing Policy in accordance with the requirements of the BRE Environmental and Sustainability Standard BES 6001.
This standard has been prepared by BRE to provide a framework for the assessment of responsible sourcing and to give a route to certification of construction products.
The requirements of the standard include that we measure, monitor, verify and report on our sustainability performance across a wide range of parameters including:
Health & Safety Management Quality Management Environmental Management Supply Chain Management & Material traceability
All of these aspects of our sustainability performance are now available via the links on this website.
Irish Cement has already integrated an ISO14001 accredited Environmental Management System and an ISO9001 accredited Quality Management System into our day-to-day operations in order to continually improve, attain and maintain the highest standards of performance.
We are very proud to now announce that we have further enhanced these Management Systems by becoming the first company in the Republic Of Ireland to attain accreditation to the BES6001 standard for our Eco-efficient CEM II products. In the true spirit of balanced sustainable development the BES6001 standard requires that measurable and verifiable performance improvements under all three of the pillars of sustainability (Environmental, Societal, and Economic) must be addressed rather than just focus on any one aspect to the detriment of any other. The introduction of this certification ensures that the broader sustainable development aspects are integrated into all business decisions.
1.5 Company Environmental Policy
Irish Cement Limited recognises the environmental responsibilities associated with all the aspects of its operations and as a matter of policy seeks to avoid, reduce and mitigate any potentially adverse effects on the environment.
The Company is committed to the integration of environmental considerations into decisions making at all levels of the organisation.
It is Company policy to comply with all legal requirements imposed on its operations and in particular to operate its production facilities at Platin, Co. Meath and Castlemungret, Co. Limerick in accordance with the requirements of the Integrated Pollution Control Licences issued by the Environmental Protection Agency.
Through its Annual Environmental Programmes, Irish Cement aims at continual improvements with regard to the following:
Minimising the environmental impact of emissions Conserving mineral and energy resources Minimising waste generation Minimising water consumption Reducing the visual impact of its operations Reducing the adverse impact of transportation Responsible sourcing of supply materials
The Company seeks to exist as a good neighbour to those living close to its plants and has adopted a policy of open communication on environmental performance.
In order to demonstrate its commitment to the highest level of environmental management Irish Cement Limited has adopted the environmental standard ISO 14001:2004.
Irish Cement Limited, through its parent company CRH, is a member of the Cement Sustainability Initiative (CSI) of the World Business Council for Sustainable Development. The CSI is a voluntary initiative by 23 of the world’s major cement producers which aims to promote greater sustainability in the cement industry.
1.6 Company Organization Chart for Environmental Management The Company Organisation Chart for Environmental Management is shown below. This illustrates the Environmental Management structure at Irish Cement Limited, Platin Works. The Environmental Manager is responsible for coordinating the requirements of the IPPC Licence, preparation of the EMP and ensuring that the Licence requirements are implemented and reported. The Technical Manager is responsible to the Managing Director for the overall implementation of the Company Environmental Policy. Responsibility for site operations rests with the Operations Director. Major project engineering works are the responsibility of the appropriate project engineering teams. The local works capital expenditure and maintenance programmes are the responsibility of the Works Engineer. Fig 1.5 Organisation Chart for Company Environmental Management.
* Green line denotes the Environmental Management Structure.
Managing Director
Acting / Engineering
Director
Operations Director
Financial Director
Purchasing Manager
Technical Manager
Marketing Director
HR Manager
Production Mananger
Quarry Manager
Works Accountant
Works Engineer
HR Manager
P.A
Quality Manager
Stores Systems Engineer
Network
Administrator
Mechanical Engineers
P.A
Safety Officer
Accounts
Process
Shift
Electrical Superintendant
Mechanical Superintendent
Chemical Engineers
Process Manager
Assistant Maint.
Manager
Packing Plant, Yard
and Despatch
Environmental Engineer
Environmental Manager
R&D Director
2. Environmental Performance
Section 2 Irish Cement Ltd., Platin Works
2.1 Resource Consumption Summary
Raw Material Usage (tonnes) :
Limestone/ Shale/ Overburden - 1,668,847
Bauxite / Iron ore/ Gypsum - 63,208
Fuel Usage (tonnes) :
Pet Coke / Coal - 62,027
Diesel / Light Fuel Oil - 567
Refuse Derived Fuel - 66,214
Electricity Usage :
Due to the commercial sensitivity of the data this information is available on site to the EPA for inspection
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.2 Schedule B.1 Monitoring of Emissions to Air
Total Mass Emissions to Atmosphere from Plant
Emission Points:
Kiln 1 Stack A2-01Kiln 2 Stack A2-02Klin 2 Grate Cooler A2-07Coal Mill 2 A2-03Cement Mill 1 A2-04Cement Mill 2 A2-05Cement Mill 3 A2-06Cement Mill 4 A2-10Kiln 3 Stack A2-08
Kiln 3 Grate Cooler A2-09
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
Particulates Kiln 3 Emission Point A2-08
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
>2.2.1 The following are the max 24 hour average and half-hourly average values for Kiln 3 per month
Month Kiln 3 Kiln 2 Coal Mill 2
January 13
February 6
March 3
April Note 1
May Note 1
June 9
July 4
August 3
September 3
October 2
November 4 46 5
December 6 58 6
Limit 60 100 100
Note 1: Industrial stike action at ICL - no production.
Emission Point A2-08 A2-02 A2-03
Item Kiln 3 Kiln 2 CoM2
Parameter Total Mass Emissions Total Mass Emissions Total Mass Emissions
(kg/yr) (kg/yr) (kg/yr)
Particulates 3387 362 4
Did not operate during these months
Did not operate during these months
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Particulates Emission Point A2-08Kiln 3> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
>2.2.2 The following are Kiln 3 Continuous Daily Results for
K3 Particulates Continuous Monitoring - Max 24 hr Rolling Average
0.0000
5.0000
10.0000
15.0000
20.0000
25.0000
30.0000
35.0000
01/01
/2012
17/01
/2012
02/02
/2012
18/02
/2012
05/03
/2012
21/03
/2012
06/04
/2012
22/04
/2012
08/05
/2012
24/05
/2012
09/06
/2012
25/06
/2012
11/07
/2012
27/07
/2012
12/08
/2012
28/08
/2012
13/09
/2012
29/09
/2012
15/10
/2012
31/10
/2012
16/11
/2012
02/12
/2012
18/12
/2012
Date
Part
icul
ates
[mg/
Nm
3] Particulates24 hr RollingAverage
Particulates 24 hr ELV
K3 Particulates Continuous Monitoring - Max 1/2 hr Average
0
10
20
30
40
50
60
70
01/01
/2012
13/01
/2012
25/01
/2012
06/02
/2012
18/02
/2012
01/03
/2012
13/03
/2012
25/03
/2012
06/04
/2012
18/04
/2012
30/04
/2012
12/05
/2012
24/05
/2012
05/06
/2012
17/06
/2012
29/06
/2012
11/07
/2012
23/07
/2012
04/08
/2012
16/08
/2012
28/08
/2012
09/09
/2012
21/09
/2012
03/10
/2012
15/10
/2012
27/10
/2012
08/11
/2012
20/11
/2012
02/12
/2012
14/12
/2012
26/12
/2012
Date
Part
icul
ates
[mg/
Nm
3]
Particulates1/2 hrAverage
Particulates1/2 hr ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Particulates Kiln 2 Emission Point A2-02
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
The following are Kiln 2 Continuous Daily Results for
K2 Particulates Continuous Monitoring - Max 24 hr Rolling Average
0
5
10
15
20
25
30
35
01/07
/2012
08/07
/2012
15/07
/2012
22/07
/2012
29/07
/2012
05/08
/2012
12/08
/2012
19/08
/2012
26/08
/2012
02/09
/2012
09/09
/2012
16/09
/2012
23/09
/2012
30/09
/2012
07/10
/2012
14/10
/2012
21/10
/2012
28/10
/2012
04/11
/2012
11/11
/2012
18/11
/2012
25/11
/2012
02/12
/2012
09/12
/2012
16/12
/2012
23/12
/2012
30/12
/2012
Date
Part
icul
ates
[mg/
Nm
3]
Particulates24 hr RollingAverage
Particulates 24 hr ELV
K2 Particulates Continuous Monitoring - Max 1/2 hr Average
0
10
20
30
40
50
60
70
01/07
/2012
08/07
/2012
15/07
/2012
22/07
/2012
29/07
/2012
05/08
/2012
12/08
/2012
19/08
/2012
26/08
/2012
02/09
/2012
09/09
/2012
16/09
/2012
23/09
/2012
30/09
/2012
07/10
/2012
14/10
/2012
21/10
/2012
28/10
/2012
04/11
/2012
11/11
/2012
18/11
/2012
25/11
/2012
02/12
/2012
09/12
/2012
16/12
/2012
23/12
/2012
30/12
/2012
Date
Part
icul
ates
[mg/
Nm
3]
Particulates1/2 hrAverage
Particulates1/2 hr ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Particulates CoM2 Emission Point A2-03
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
The following are CoM2 Continuous Daily Results for
Coal Mill 2 Particulates Continuous Monitoring - Max 24 hr Rolling Average
0
5
10
15
20
25
30
35
01/07
/2012
08/07
/2012
15/07
/2012
22/07
/2012
29/07
/2012
05/08
/2012
12/08
/2012
19/08
/2012
26/08
/2012
02/09
/2012
09/09
/2012
16/09
/2012
23/09
/2012
30/09
/2012
07/10
/2012
14/10
/2012
21/10
/2012
28/10
/2012
04/11
/2012
11/11
/2012
18/11
/2012
25/11
/2012
02/12
/2012
09/12
/2012
16/12
/2012
23/12
/2012
30/12
/2012
Date
Part
icul
ates
[mg/
Nm
3]
Particulates24 hr RollingAverage
Particulates 24 hr ELV
Coal Mill 2 Particulates Continuous Monitoring - Max 1/2 hr Average
0
10
20
30
40
50
60
70
01/07
/2012
08/07
/2012
15/07
/2012
22/07
/2012
29/07
/2012
05/08
/2012
12/08
/2012
19/08
/2012
26/08
/2012
02/09
/2012
09/09
/2012
16/09
/2012
23/09
/2012
30/09
/2012
07/10
/2012
14/10
/2012
21/10
/2012
28/10
/2012
04/11
/2012
11/11
/2012
18/11
/2012
25/11
/2012
02/12
/2012
09/12
/2012
16/12
/2012
23/12
/2012
30/12
/2012
Date
Part
icul
ates
[mg/
Nm
3]
Particulates1/2 hrAverage
Particulates1/2 hr ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1
Particulates Non-Continuous
>2.2.3 Quarterly Monitoring *Data in mg / Nm 3
Emission Point A2-04 A2-05 A2-06 A2-10 A2-09 A2-07 A2-03
Item Cement Mill 1 Cement Mill 2 Cement Mill 3 Cement Mill 4 K3 Grate Cooler K2 Grate Cooler Coal Mill 2
Jan - March Note 1 10 12 3 4 Note 1 Note 1
April - June Note 1 10 13 5 3 Note 1 Note 1
July - Sept Note 1 5 12 0 5 Note 1 Note 1
Oct - Dec Note 1 0 21 0 2 8 2
Average Note 1 6 14 2 3 8 2
Limits 75 50 50 30 30 30 30
Note 1: - Did not run during this quarter.
The following are the total calculated mass particulate emissions for the
above Emission Points:
Emission Point A2-04 A2-05 A2-06 A2-10 A2-09 A2-07 A2-03
Item Cement Mill 1 Cement Mill 2 Cement Mill 3 Cement Mill 4 K3 Grate Cooler K2 Grate Cooler Coal Mill 2
Total mass
Emissions
( kg / year )
Minor Bag Filter Testing 2012
Emission Point Test Result ELV [mg/Nm 3 ] Emission Point Test Result ELV [mg/Nm 3 ]
A3-09 11 30 A3-64 1 50A3-10 3 50 A3-65 1 50
A3-11 1 50 A3-66 7 50
A3-12 40 50 A3-70 2 50
A3-13 14 50 A3-71 2 50
A3-17 7 50 A3-81 0 30A3-19 4 50 A3-85 12 30A3-22 3 50 A3-86 1 30A3-23 2 50 A3-89 10 30
A3-24 2 50
A3-37 0 50
A3-41 27 50
A3-43 1 50
A3-44 2 50A3-51 2 50A3-53 4 50A3-55 3 50A3-56 2 50A3-58 3 50A3-60 14 50A3-61 2 50A3-62 1 50A3-63 20 50
> Non - Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
The following are the results for the annual monitoring of PM10 and PM 2.5 for Kiln 3:>2.2.1 (A)
PM2.5 1PM10 2.3
0 49 4932 961 275 1,381
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1
SOx Quarterly
>2.2.4 Quarterly Monitoring *Data in mg / Nm 3
Emission Point A2-08 A2-02 A2-03
Item Kiln 3 Kiln 2 CoM2
Jan - Mar 17 Note 2 Note 2
Apr - June Note 1 Note 2 Note 2
July - Sept 15 Note 2 Note 2
Oct - Dec 16 0 264
Average 16 0 264
Limits 400 750 750
The following is the total calculated SOx mass emission:
Emission Point A2-08 A2-02 A2-03Item Kiln 3 Kiln 2 CoM2
Parameter Total Mass Emissions Total Mass Emissions Total Mass Emissions(kg/yr) (kg/yr) (kg/yr)
SOx 30929 0 289
Monitoring of Emissions to Air (Other)
CO 2
>2.2.4 (A) CO2 from fuel combustion and calcination of raw materials this year - 694,319
(t / year)
Note 2 : - Did not run in this quarter
Note 1: - Kiln restarted for the first time in Q2 on 15th June. SOx monitoring was completed during 1st week of July. Results were submitted in July - Dec six monthly report.
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
NOx Kiln 3 Emission Point A2-08
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
>2.2.5 The following are the max half-hourly average values for Kiln 3 per month
Month Kiln 3 Kiln 2 Coal Mill 2
January 856
February 960
March 936
April Note 1
May Note 1
June 590
July 762
August 881
September 991
October 916
November 911 765 545 (Note 2)
December 794 1386 (Note 3) 953
Limit 1000 1000 1000
Note 1: Industrial stike action at ICL - no production.
Note 2: This figure was given as 765 in the July - Dec six monthly report (misprint)
Note 3: Kiln 2 NOx half hourly as reported to the Agency
Date
Parameter
Emission point ref.
Emission Point A2-08 A2-02 A2-03Item Kiln 3 Kiln 2 CoM2
Parameter Total Mass Emissions Total Mass Emissions Total Mass Emissions(kg/yr) (kg/yr) (kg/yr)
NOx 869031 12243 864
Did not run during these months
Kiln 2 was started at 23.30 on the 3rd Dec. At 01.00 the kiln was operating steadily. Feed to the kiln was then lost for 3 – 4 minutes. This resulted in process instability which led to a rise in NOx levels. Attempts were made to stabilise the kiln and as a result there was a period where the half hourly NOx
limit of 1000 mg/m3 was exceeded. The kiln was then stopped.
Cause
Feed and fuel were reduced in an attempt to stabilise the kiln and ultimately reduce NOx levels. The kiln was then stopped.
Corrective Action
NOx daily average was not exceeded.
Did not run during these
months
A2-02
Kiln 2 Stack NOx half hourly breaches
4th December 2012 at 04.30 – 08.00
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
NOx Kiln 3 Emission Point A2-08
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
The following are Kiln 3 Continuous Daily Results for
Start up NOx as per condition 4.1.1 (iii) of P0030-04.
K3 NOx Continuous Monitoring - Max 24 hr Rolling Average
0.0000
100.0000
200.0000
300.0000
400.0000
500.0000
600.0000
01/01
/2012
17/01
/2012
02/02
/2012
18/02
/2012
05/03
/2012
21/03
/2012
06/04
/2012
22/04
/2012
08/05
/2012
24/05
/2012
09/06
/2012
25/06
/2012
11/07
/2012
27/07
/2012
12/08
/2012
28/08
/2012
13/09
/2012
29/09
/2012
15/10
/2012
31/10
/2012
16/11
/2012
02/12
/2012
18/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 24 hrRollingAverage
NOx 24 hrELV
K3 NOx Continuous Monitoring - Max 1/2 hr Average
0
500
1000
1500
2000
2500
01/01
/2012
17/01
/2012
02/02
/2012
18/02
/2012
05/03
/2012
21/03
/2012
06/04
/2012
22/04
/2012
08/05
/2012
24/05
/2012
09/06
/2012
25/06
/2012
11/07
/2012
27/07
/2012
12/08
/2012
28/08
/2012
13/09
/2012
29/09
/2012
15/10
/2012
31/10
/2012
16/11
/2012
02/12
/2012
18/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 1/2 hrAverage
NOx 1/2 hrELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
NOx Kiln 2 Emission Point A2-02
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
High NOx on start as per condition 4.1.1 (iii) of P0030-04.Non - conformance with licence as reported to the Agency
K2 NOx Continuous Monitoring - Max 24 hr Rolling Average
0
100
200
300
400
500
600
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 24 hrRollingAverage
NOx 24 hrELV
K2 NOx Continuous Monitoring - Max 1/2 hr Average
0
500
1000
1500
2000
2500
3000
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 1/2 hrAverage
NOx 1/2 hrAverage
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
NOx CoM2 Emission Point A2-03
> Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
The following are CoM2 Continuous Daily Results for
CoM2 NOx Continuous Monitoring - Max 24 hr Rolling Average
0
100
200
300
400
500
600
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 24 hrRollingAverage
NOx 24 hrRollingAverage
CoM2 NOx Continuous Monitoring - Max 1/2 hr Average
0
200
400
600
800
1000
1200
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
NO
x [m
g/N
m3
@10
% O
2 D
ry]
NOx 1/2 hrAverage
NOx 1/2 hrAverage
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08
>2.2.8 The following are Kiln 3 Continuous Daily Results for
Total Organic Carbon - TOC *Data in mg / Nm 3 @ 10% O 2 Dry
Parameter Total Mass Emissions
(kg/yr)
TOC 9,610 Continuous
Monitoring Frequency
K3 TOC Continuous Monitoring - Max 24 hr Rolling Average
0
5
10
15
20
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
TOC
[mg/
Nm
3 @
10%
O2
Dry
]
TOC 24 hrrollingaverage
TOC ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08>2.2.9 The following are Kiln 3 Continuous Daily Results for
Hydrogen Chloride - HCl *Data in mg / Nm 3 @ 10% O 2 Dry
Parameter Total Mass Emissions
(kg/yr)HCl 2,852 Continuous
Monitoring Frequency
K3 HCl Continuous Monitoring - Max 24 hr Rolling Average
0
5
10
15
20
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
HC
l [m
g/N
m3
@10
% O
2 D
ry]
HCl 24 hrrollingaverage
HCl ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08
>2.2.10 The following are Kiln 3 Continuous Daily Results for
Hydrogen Floride - HF *Data in mg / Nm 3 @ 10% O 2 Dry
Parameter Total Mass Emissions
(kg/yr)
HF 232 Continuous
Monitoring Frequency
K3 HF Continuous Monitoring - Max 24 hr Rolling Average
0.0
0.5
1.0
1.5
2.0
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
HF
[mg/
Nm
3 @
10%
O2
Dry
]
HF 24 hrrollingaverage
HF ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08>2.2.11 The following are Kiln 3 Continuous Daily Results for
Sulfur Dioxide - SO2 *Data in mg / Nm 3 @ 10% O 2 Dry
Parameter Total Mass Emissions
(kg/yr)SO2 5,245 Continuous
Monitoring Frequency
K3 SO2 Continuous Monitoring - Max 24 hr Rolling Average
0
25
50
75
100
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
SO2
[mg/
Nm
3 @
10%
O2
Dry
]
SO2 24 hrrollingaverage
SO2 ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08
>2.2.12 The following are Kiln 3 Continuous Daily Results for
Carbon Monoxide - CO *Data in mg / Nm 3 @ 10% O 2 Dry
Parameter Total Mass Emissions
(kg/yr)
CO 144,723 Continuous
Monitoring Frequency
K3 CO Continuous Monitoring - Max 24 hr Rolling Average
0
750
1500
2250
3000
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
CO
[mg/
Nm
3 @
10%
O2
Dry
]
CO 24 hrRollingAverage
CO ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
> Continuous Monitoring Emission Point A2-08>2.2.13 The following are Kiln 3 Continuous Daily Results for
Carbon Dioxide - CO2
K3 CO2 Continuous Monitoring - Max 24 hr Rolling Average
0.0000
25.0000
50.0000
75.0000
100.0000
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
CO
2 [%
]
CO2 %
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.1 Monitoring of Emissions to Air
Kiln 3 Emission Point A2-08
>2.2.14
> Co - Firing Non - Continuous Monitoring *Data in mg / Nm 3 @ 10% O 2
Component Run Limit Campaign 1 Campaign 2 Campaign 3 Campaign 4 Campaign 5
1 0.1 ng/m30.00049 0.00097 0.00056 0.0037 0.00072
2 0.1 ng/m30.00110 0.00075 0.0004 0.00038 0.00061
3 0.1 ng/m30.00130 0.00076 0.0004 0.00021 0.00033
1 0.05 mg/m30.00150 0.01400 0.002 0.0029 0.0014
2 0.05 mg/m30.00230 0.01100 0.0018 0.0031 0.0014
3 0.05 mg/m30.00160 0.00100 0.0034 0.0033 0.00097
4 0.05 mg/m30.00320 0.00430 0.0032 0.003 0.0013
5 0.05 mg/m30.00350 0.00170 0.0031 0.002 0.001
1 0.5 mg/m32.4 (Note 1) 0.02100 0.024 0.45 0.027
2 0.5 mg/m30.28000 0.04000 0.015 0.083 0.026
3 0.5 mg/m30.12000 0.01900 0.021 0.021 0.044
4 0.5 mg/m30.08500 0.02100 0.033 0.021 0.024
5 0.5 mg/m30.08800 0.01300 0.022 0.016 0.041
1 0.05 mg/m3<0.00072 <0.00064 <0.00060 <0.00063 <0.00060
2 0.05 mg/m30.00840 <0.00055 <0.00056 <0.00059 <0.00060
3 0.05 mg/m3<0.00072 <0.00065 0.0006 <0.00062 <0.00063
4 0.05 mg/m30.00680 <0.00057 <0.00059 <0.00062 <0.00061
5 0.05 mg/m3<0.00064 <0.00057 <0.00059 <0.00059 <0.00063
Note 1: Individual Heavy Metals Run 1 invalid due to the elevated results of Ni and Cr that are indicative of rust contamination. The elevated results were in the particulate phase, indicating contamination of rust from the stack
sampling port, as reported to the agency by phone and fax.
Individual Heavy Metals (Sb, As, Pb, Cr, Co, Cu, Mn, Ni &
V)
Dioxins and Furans
Mercury
Individual Heavy Metals (Cd & Ti)
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.3 Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-1
> Continuous Monitoring *Data in mg/L unless otherwise stated
>2.3.1 The following are the monthly average Flowrates and the
monthly measured pH, BOD, and Suspended Solids:
January 4,044 04/01/2012 8.2 <2 9 -
February 4,561 01/02/2012 8.1 <2 9 <2.5
March 4,308 05/03/2012 8.2 <2 6 <2.5
April 4,463 02/04/2012 8.3 <2 9 <2.5May 3,912 01/05/2012 8.1 <2 16 3.52June 6,379 01/06/2012 7.7 <2 4 6.51July 3,810 26/07/2012 8.0 <2 14 6.71
August 3,140 03/08/2012 7.8 <2 8 <2.5September 3,175 03/09/2012 7.4 <2 10 <2.5
October 3,555 01/10/2012 8.3 <2 9 <2.5November 4,291 20/11/2012 8.2 <2 2 <2.5
December 4,971 03/12/2012 8.2 7 4 <2.5
Average 4,217 - 8.0 0.6 8 1.395Limits 14,500 - 6 - 9 25 - 10
Schedule C.6 Monitoring of Emissions to Water
Water Effluent Emission Point GW-1
> 2.3.2 Biannual Monitoring
Paramter ParameterResult 1st Half
2012Result 2nd Half
2012 UnitMajor Anions Chloride 31.31 34.19 mg/L
Nitrate 4.84 4.77 mg/LSulphate 21.33 23.54 mg/L
Major Cations Calcium 93.51 109.1 mg/LPotassium 4.104 7.155 mg/L
Sodium 14.53 14.73 mg/LTotal Ammonia Ammonia <0.01 0.068 mg/L
Nitrite Nitrite 0.006 0.006 mg/L
Individual Heavy Metals Cadmium <0.09 <0.09 ug/L
Cobalt 0.684 0.081 ug/LCopper <0.11 0.621 ug/L
Iron (total) 8.778 32.63 ug/LLead 1.755 0.066 ug/L
Manganese 3.394 3.677 ug/LNickel 0.739 0.426 ug/L
Tin <2.8 <2.8 ug/L
MonthAverage Flowrate
(m 3 /day)Sample Date pH BOD [mg/L]
Suspended Solids [mg/L]
Mineral Oil [mg/L]
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-1
>2.3.3 The following is the continuous monitoring of SW-1 Flowrate
SW-1 Total flowrate per day
0
5000
10000
15000
20000
25000
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
Flow
rate
[m3]
SW-1Outflow
SW-1 ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-3
> Quarterly Monitoring *Data in mg/L unless otherwise stated
>2.3.4 The following are the quarterly average Flowrates and the average of the weekly testing of the BOD
also the quarterly measured pH, BOD, and Suspended Solids:
Jan - March 6.0 04/01/2012 7.7 5 10 <2.5
April - June 14.2 02/04/2012 7.0 <2 7 <2.5
July - Sept 11.9 26/07/2012 7.6 8 13 <2.5
Oct - Dec 17.6 03/12/2012 7.8 10 19 <2.5
Average 15 - 7.5 3.3 12.25 0Limits 100 - 6 - 9 25 30 10000
Week 28 & 29 exceeded spot sample ELV of 30 (1.2 times ELV) as notified to the agency on the 09/08/12.
Date
Parameter
Emission point ref.
Cause
Corrective Action When the gearbox was replaced, the original equipment supplier was consulted and operational changes were made to the plant in an attempt to speed up the adjustment time of the new seed sludge. The SWWTP has now resumed normal operation and the BOD results for both SW-3 and SW-4 are in compliance.
11th and 18th July 2012
Breach of weekly SW-3 BOD ELV
SW-3
The incident occurred after an overhaul of the SWWTP following the mechanical failure of the aeration wheel gearbox. Repairs were made however the plant required re-seeding. It took a number of days for the seeded sludge to adjust to the plant, causing the elevated BOD results.
BOD [mg/L]
Suspended Solids[mg/L]
Result within 1.2 times ELV. As this is a spot sample, the limit value is 1.2 times the emission limit value of 25mg/L, in accordance with condition 4.3.3 of licence P0030-04
MonthAverage Flowrate
(m 3 /Day)Sample Date pH
Mineral Oil [ug/L]
SW-3 Biochemical Oxygen Demand Weekly Results 2012
0
10
20
30
40
50
01/01
/2012
16/01
/2012
31/01
/2012
15/02
/2012
01/03
/2012
16/03
/2012
31/03
/2012
15/04
/2012
30/04
/2012
15/05
/2012
30/05
/2012
14/06
/2012
29/06
/2012
14/07
/2012
29/07
/2012
13/08
/2012
28/08
/2012
12/09
/2012
27/09
/2012
12/10
/2012
27/10
/2012
11/11
/2012
26/11
/2012
11/12
/2012
26/12
/2012
Date
BO
D [m
g/L]
BOD (mg/L)
BOD ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-3
>2.3.5 The following is the continuous monitoring of SW-3 Flowrate
SW-3 Total flowrate per day
0.00
50.00
100.00
150.00
200.00
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
Flow
rate
[m3]
SW-3Outflow
SW-3 ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-4
*Data in mg/L unless otherwise stated
>2.3.6 The following are the monthly average Flowrates and also the monthly measured pH, BOD, and Suspended Solids:
January 13,939 04/01/2012 7.6 <2 6 <5 <2.5
February 14,451 01/02/2012 7.8 <2 4 <5 <2.5
March 13,795 22/03/2012 7.7 <2 2 <5 <2.5
April 14,136 02/04/2012 7.5 <2 10 <5 <2.5
May 14,486 09/05/2012 7.7 <2 2 <5 <2.5June 15,823 01/06/2012 7.5 <2 2 <5 <2.5July 14,312 26/07/2012 7.4 <2 8 <5 <2.5
August 13,162 03/08/2012 7.4 <2 6 <5 <2.5September 13,656 03/09/2012 7.3 <2 3 <5 <2.5
October 14,024 01/10/2012 7.5 <2 4 6 <2.5November 13,858 05/11/2012 7.5 <2 2 <5 <2.5December 15,357 03/12/2012 7.6 <2 5 6 <2.5
Average 14250 - 7.5 0 4.5 1.0 0
Limits 28000 - 6 - 9 3 35 - 2000
>2.3.7 The following are the bi-annual results for metals in the combined effluent; SW-4:
Monitoring Period Zn (ug/l) Cu (ug/l) Pb (ug/l)
H1 3.559 2.968 2.184
H2 <0.63 0.764 0.115
Average 1.8 1.9 1.1
Limits 100 30 7.2
>2.3.8 The following is the continuous monitoring of SW-4 Flowrate
COD [mg/L]
Mineral Oil [ug/L]
MonthAverage Flowrate
(m 3 /day)Sample Date pH
BOD [mg/L]
Suspended Solids[mg/l]
SW-4 Total flowrate per day
0
10000
20000
30000
40000
50000
01/01
/2012
15/01
/2012
29/01
/2012
12/02
/2012
26/02
/2012
11/03
/2012
25/03
/2012
08/04
/2012
22/04
/2012
06/05
/2012
20/05
/2012
03/06
/2012
17/06
/2012
01/07
/2012
15/07
/2012
29/07
/2012
12/08
/2012
26/08
/2012
09/09
/2012
23/09
/2012
07/10
/2012
21/10
/2012
04/11
/2012
18/11
/2012
02/12
/2012
16/12
/2012
30/12
/2012
Date
Flow
rate
[m3]
SW-4Outflow
SW-4 ELV
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.2 Monitoring of Emissions to Water
Water Effluent Emission Point SW-4
*Data in mg/L unless otherwise stated
>2.3.9 The following are the weekly conductivity results for SW-4:
Laboratory failed to carry out conductivity test for this week. Tested for mineral oil, pH & suspended solids.
Due to industrial action, no samples were taken this week.
No samples were taken for week 40, mistake by contractor. Monthly samples were taken during this week however.
SW-4 Conductivity Weekly Results Jan - Dec 2011
0
200
400
600
800
1000
03/01
/2012
17/01
/2012
01/02
/2012
14/02
/2012
01/03
/2012
16/03
/2012
30/03
/2012
10/04
/2012
26/04
/2012
09/05
/2012
07/06
/2012
18/06
/2012
03/07
/2012
18/07
/2012
02/08
/2012
17/08
/2012
27/08
/2012
14/09
/2012
27/09
/2012
10/10
/2012
25/10
/2012
09/11
/2012
20/11
/2012
03/12
/2012
19/12
/2012
Date
Con
duct
ivity
[usc
m-1
@25
C]
Conductivity
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.4 Condition 6.16 (ii) Noise Management Plan
>2.4.1 To show compliance with noise aspects of IPPC Licence Reg. No. P0030-03 and subsequently IPPC Licence Reg. No.
Reg. No. P0030-04, a Noise Management Plan was developed by ARUP Consulting Engineers in October 2009 and
reviewed internally in 2010, 2011 and 2012.
"The Noise Management Plan has been prepared to outline how noise generated during the
operation of the facility is being managed. The objective of the plan is to ensure that procedures
are put in place for the management of noise generated on-site and to prevent impacts on
local residents."
See section 5 of AER for full Noise Management Plan and Review
Schedule B.4 Monitoring of Noise Off - Site
>2.4.2 Annual Report on Noise Levels Measured Off Site -
To show compliance with noise aspects of IPPC Licence Reg. No. P0030-04 a noise surveywas carried out by NVM Ltd over the period 22/08/2012 to 22/10/2012 at the three Noise Sensitive Locations agreed with the agency, namely Collier's Residence, Curran's Residence and Sinnot's Residence.
Loaction Daytime dB(A) L Aeq (30mins) Night-time dB(A) L Aeq (30mins)
ELV 55 45NSL 1 56 45NSL 2 53 46NSL 3 57 47
Note: All results are within 2 dB (A) of the daytime and evening ELV's
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
Schedule B.5 Vibration
>2.4.3 Limestone Quarry
Number of blasts measured : 22
Vibrations
Limit as per EPA Licence - 12 mm/sec
Result - 100 % compliance.
Equipment used : NS 5400 Digital Seismograph
Schedule B.6 Air Overpressure
>2.4.4 Air Overpressure
Limit as per EPA Licence - No single blast overpressure greater than 127.5 dB (lin)
Result - 100 % compliance.
Limit as per EPA Licence - 95 % of blast overpressure's not greater than 125 dB (lin)
Result - 100%
Equipment used : NS 5400 Digital Seismograph
Note: The level of quarry activity at Irish Cement Platin has decreased significantly over the last 4 years.
The annual frequency of blasts at the quarry is currently approximately 25% of typical levels over the period
2003-2008. Hence in order to provide a representative data cohort for calculating and assessing the
95% percentile of air overpressure, results are being reported for the last 25 blasts representing
the average number of blasts per year in the previous 5 years in the Platin Quarry.
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.5 - Schedule C.4 Waste Disposal
2.5.1 On Site Waste Disposal (Overburden Mound)
EWC Code
Limestone/Overburden/Clay 159,680 Tonnes 17 05 04
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
>2.5.2
ENVA,W0196-1
Returnbatt/ Rilta Environmental Limited,WP 0192-03
ENVA Ireland ,W0184-01
Irish Lamp Recycling Co. Ltd.,WFP-KE-08-0384-01
ENVA Ireland ,W0184-01
Woodstock Industrial Estate,Kilkenny Road ,Athy,Co. Kildare,Ireland
Safety Kleen Ireland Ltd.,W0099-01
Irish Lamp Recycling Co. Ltd.,WFP-KE-08-0384-01
Frylite Ltd, WML 26/26
Greyhound Recycling & Recovery,W00205-01; W0238-01
Greyhound Recycling & Recovery,W00205-01; W0238-02
Panda Waste,W0140-03
Woodstock Industrial Estate,Kilkenny Road ,Athy,Co. Kildare,Ireland
Irish Metal Refineries, WFP 090301
Greyhound Recycling & Recovery,W00205-01; W0238-01
Greyhound Recycling & Recovery,W00205-01; W0238-01
Greyhound Recycling & Recovery,W00205-01; W0238-01
Greyhound Recycling & Recovery,W00205-01; W0238-02
Greyhound Recycling & Recovery,W00205-01; W0238-01
MSM Recycling,WMP 02/2008
Crumb Rubber Ireland,WFP-LH-10-0005-01
Clonminam Industrial Estate ,.,Portlaoise ,Co. Laois,Ireland
Block 402 Grants Drive,Greenogue Business Park,Rathcoole ,Co.
Dublin,Ireland
JFK Road,JFK Industrial Estate,Naas Road,Dublin 12,Ireland
Clonminam Industrial Estate ,.,Portlaoise ,Co. Laois,Ireland
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Rathdrinagh, Beauparc, Navan,Co. Meath,Ireland
Unit 5 ,Airton Road,Tallaght,Dublin 24,Ireland
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Unit 41,Cookstown Industrial Estate,Tallaght,Dublin 24,Ireland
Mooretown,Dromiskin,Dundalk,Co. Louth,Ireland
Orchard Rd Ind Est, Strabane, Co Tyrone, BT82 9FR
Clonminam Industrial Estate ,.,Portlaoise ,Co. Kildare,Ireland
R4
15 01 10 YesPackaging containing residues of or contaminated by dangerous substances
1.73 R4
16 06 04 No alkaline batteries (except 16 06 03) 0.117
R9
13 08 02 Yes other emulsions 2.04 R1
13 02 08 Yes other engine, gear and lubricating oils 8.19
R5
20 01 21 Yesfluorescent tubes and other mercury-containing waste
0.214
20 01 35 Yesdiscarded electrical and electronic equipment other than those mentioned in 20 01 21 and and 20 01 23 containing
0.905
R1
11 01 13 Yesdegreasing wastes containing dangerous substances
0.393 R2
ENVA Ireland ,W0184-01
19 09 02 No sludges from water clarification 105.69 D8
absorbents, filter materials (including oil filters not otherwise specified), wiping cloths, protective clothing contaminated by dangerous substances
15 02 02 Yes 6.365
Quantity, T
Waste Treatment Operation
Address of Recover/Disposer Contractor
Name and Licence/Permit No of Recover/Disposer
R3
R12
Crag Avenue,Clondalkin Industrial Estate,Clondalkin,Dublin 12 ,Ireland
Crag Avenue,Clondalkin Industrial Estate,Clondalkin,Dublin 12 ,Ireland
Crag Avenue,Clondalkin Industrial Estate,Clondalkin,Dublin 12 ,Ireland
Crag Avenue,Clondalkin Industrial Estate,Clondalkin,Dublin 12 ,Ireland
Unit 2 Duleek Business Park, Duleek, Co Meath, Ireland.
EWC Hazardous Yes / No Waste Type
02 02 03
No20 01 02
end-of-life tyres R5
20 01 25 No Edible oil and fat 0.28 R12
16 01 03 No
R4
21 01 40 No metals 0.53 R4
20 01 40 No metals
R12
20 01 40 No metals 66.82 R4
R3
15 01 06 No mixed packaging 16.31 R3
20 01 38 71.58wood other than that mentioned in 20 01 37
No
2.5 - Schedule C.4Off - Site Waste Disposal
mixed municipal wasteNo20 03 01
17 09 04 No Mixed construction and demolition waste
R1112.75
7.5
49.57
6.3
0.08Glass
NoMaterials unsuitable for consumption or processing (compost)
0.46
R4
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.6 Environmental Complaints :Complaints on environmental matters were received during the year -
All complaints were investigated by the Plant Management and where necessary
the complainants were reassured regarding environmental management at the plant.
No. Date Complainant Type
Odour Noise Blast Dust Misc.
1 8th March 2012 Mr. Pat Durnin *
2 27th July 2012 Mr. Pat Durnin *
3 13th August 2012 Mr. Alan Gartland *
4 6th September 2012 Mr John Curran *
Complaint 1
Date: 8th March 2012Address: Beamore Road
Co. Meath.
Complainant: Mr. Pat Durnin
Complaint 2Date: 27th July 2012Address: Beamore Road
Co. Meath.
Complainant: Mr. Pat Durnin
Complaint 3
Date: 13th August 2012Address: Newtown Platin
Co. Meath.
Complainant: Mr. Alan Gartland
Complaint 4
Date: 06th September 2012Address: Platin,
Co. Meath
Complainant: Mr John Curran
Historical Record of Complaints:
Year Number of Complaints
2011 22010 12009 52008 122007 92006 22005 32004 52003 8
There was one environmental complaint relating to dust in September 2012. John Curran complained of dust on his property on the 06th September. A full investigation was carried out and it was found that there was dust emanating from a haul road in the quarry. The activity was immediately stopped and remedial action was taken allowing hauling to re-commence. This was explained to the complainant and he was satisfied.
There was one environmental complaint relating to noise in July 2012. On the 27th of July Mr. Pat Durnin complained of disturbance from haulage trucks using a road local to the plant. The road in question, the Beamore Road, also runs close to the complainant’s residence.The complaint was logged and Plant Management engaged with the complainant to discus the matter, during which the complainant was assured that Irish Cement would avoid traffic on this road as much as practicable.
There was one environmental complaint relating to odour in August 2012. Alan Gartland complained of odour emanating from the factory on the 13th of August. After a full investigation over a number of days and in compliance with EPA guidance AG5 on odour investigation, it was found that the odour was not coming from the Platin site, that the plant was downwind of the odour. This was explained to the complainant and closed out. The Agency was also informed of the odour complaint and the outcome of the investigation.
There was one environmental complaint relating to noise in March 2012. On the 8th of March Mr Pat Durnin complained of noise that was being created by haulage trucks using a road local to the plant late at night. The road in question, the Beamore Road, also runs close to the complainant’s residence. The complaint was logged and Plant Management engaged with the complainant to discus the matter, during which the complainant was assured that Irish Cement would try to avoid traffic around the site late at night. The complainant was satisfied with the response and the issue has been closed out.
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.7 Bund Integrity
- Pass * - - Pass * #
- Pass * - - Pass * #
- Pass * - - Pass * #
- Pass * - - Pass * #
- Pass * - - Pass * #
- - Pass** - #
Pass * - - Pass * #
* Bund was Hydrostatically Tested
** "From a preliminary inspection it was deemed impracticable to conduct a hydrostatic test. Therefore the assessment of the integrtiy
and water tightness of the Ammonia Bund was based on a detailed visual inspection and a structural survey."
Mott MacDonald Report Number; 24844000002S
# = Year bund is next to be tested
2.8 Pipeline Testing
2008 2009 2010 2011 2012 2013 2014 2015
Pass * - - Pass * #
Pass * - - Pass * #
Pass * - - Pass * #
* Pipes were pressure tested to 70 PSI for 1 hour
# = Year pipes are next to be tested
20152011 2012 2013 2014
Garage Diesel Tank - Opposite Garage
Quarry Diesel Tank - Top of Quarry
Production Diesel Tank - Beside Raw Mill 2 Building
Kiln 2 Diesel Tanks / CEM I Grinding Aid Tanks
CEM II Grinding Aid Tanks - Adjacent to Grate Cooler DB room
Ammonia Water - North of Raw Mill 1
2008
Kiln 3 Diesel Tank - Beside Kiln 3 Grate Cooler
Bund Location 2009 2010
Pipeline Location
Pipes at Diesel Pump Room flow from high level gravity tank
Pipes at Diesel Pump Room flow to high level gravity tank
Pipes at diesel storage tanks RM2 Bund Area
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.9 Schedule B.7 Ambient Monitoring - Dust Deposition
AA1 AA2 AA3 AA4
Q1 88 202 79 118
Q2 10 69 99 15
Q3 79 32 13 106
Q4 13 18 38 58
Dust deposits are monitored both on and off site by means of dust deposit gauges which were installed in
accordance with the requirements of the EPA. Due to the nature and location of the off-site monitoring locations,
the data arising from this monitoring can reflect dust deposition (e.g. arising from road traffic or agricultural activities)
which does not necessarily arise from the activities of Irish Cement Platin Works.
QuarterDust Deposit Gauge Location
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
2.10 Reported Incidents Summary
Date
Parameter
Incidents Relating to Aspect: Air Emissions
Date
Value One data point at 2.4 mg/m3
Date
Parameter
Date 4th December 2012 at 04.30 – 08.00
Parameter Kiln 2 Stack NOx half hourly breaches
NOx daily average was not exceeded.
Kiln 3 Stack SICK RM230 dust monitor
Corrective Action
21st February 2012 13.37 - 14.44
15th- 16th June 2012 at 19.30 – 19.00
All sample ports will be sanded down so to remove as much rust from the sampling port as possible before future tests are carried out.
Emission point ref. A2-08
A full investigation was completed by both the stack testing company and ICL upon receipt of analysis of the sample result. It has been concluded by both parties that the test run in question was invalid due to rust contamination. Visual investigations have concluded that the rust in the sample most likely arose from the stack sampling port.
Cause
Incidents Relating to Aspect: Water Emissions
11th and 18th July 2012
Breach of weekly SW-3 BOD ELV
When the gearbox was replaced, the original equipment supplier was consulted and operational changes were made to the plant in an attempt to speed up the adjustment time of the new seed sludge. The SWWTP has now resumed normal operation and the BOD results for both SW-3 and SW-4 are in compliance.
Corrective Action
ParameterCampaign periodic monitoring: Sum of Sb; As; Pb; Cr; Co; Cu; Mn; Ni and V
Emission point ref. SW-3
Cause
The incident occurred after an overhaul of the SWWTP following the mechanical failure of the aeration wheel gearbox. Repairs were made however the plant required re-seeding. It took a number of days for the seeded sludge to adjust to the plant, causing the elevated BOD results.
Emission point ref. A2-08
Cause
Corrective Action
Spare parts were installed immediately however the electrical malfunction remained. Remedial maintenance was carried out as soon as was practicable which brought the analyser back into normal operation.
On Friday evening 15th of June 2012, an electrical malfunction occurred within the Kiln 3 Stack (A2-08) SICK RM230 dust monitor. The dust monitor required specialist maintenance to return it to normal functionality. Independent isokinetic monitoring was carried out while repairs were being made to analyser.
Cause
Corrective ActionFeed and fuel were reduced in an attempt to stabilise the kiln and ultimately reduce NOx levels. The kiln was then stopped.
A2-02Emission point ref.
Kiln 2 was started at 23.30 on the 3rd Dec. At 01.00 the kiln was operating steadily. Feed to the kiln was then lost for 3 – 4 minutes. This resulted in process instability which led to a rise in NOx levels. Attempts were made to stabilise the kiln and as a result there was a period
where the half hourly NOx limit of 1000 mg/m3 was exceeded. The kiln was then stopped.
IPPC Licence Reg. No. P0030-04
Section 2 Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
.
3. Report on Environmental Management Plan 2012/2013
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Section 3
IRISH CEMENT LTD
PLATIN
REPORT ON ENVIRONMENTAL MANAGEMENT PLAN
2012/2013
E.P.A. LICENCE REG. NO. P0030-04
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
ENVIRONMENTAL MANAGEMENT PLAN REVIEW FOR 2012/2013 1. Cleaner production / technology – Process equipment / process control improvements
resulting in improved yields and efficiencies and the elimination/reduction of wastes:
Commission and optimise the use of SRF on site in order to reduce our dependence on fossil fuels and reduce CO2 emissions. Process Manager. Ongoing, A Test Programme extension was granted by the Agency on the 12th March 2012, to allow Irish Cement to continue to pursue the highest possible SRF substitution rates achievable within the industry so as to maximise the sustainability benefits.
Continue the on-going work to optimise the plant control system. Works Engineer. Ongoing
Complete the test programme for SRF, as agreed with the Agency in March 2011.
Quality & Environmental Manager. An extension to the Test Programme was granted by the Agency in March 2012. The report for the Test Programme will be submitted to the Agency by March 2013.
Optimise the environmental controls for the use of SRF at Platin.
Environmental Engineer. All licenced required interlocks are in place. All interlocks are reviewed so as to optimize optimisation environmental controls.
Continue to target increases in waste segregation and recycling and so reduce waste
disposal to landfill. Environmental Engineer. Initiatives to maximise the volume of overburden consumed in the process and hence reduce the volume of extractive waste from the process is ongoing. Initiatives to maximise the recycling of packaging materials, including wood pallets is ongoing.
Continue to reduce the clinker content in cement to reduce the CO2 emissions per tonne
of cement. Production Manager. Platin further increased the substitution of limestone in cement to reduce the CO2 emissions per tonne of cement.
Complete upgrade of old plant control system to a new plant control system, integrating
all parts of the plant to a single modern control system. Works Engineer. Platin Upgrade Work continued in 2012 converting the control system from Cemat Version 4.12 to a PCS7 system from Siemens, the conversion was completed for a number of plant items in 2012. This upgrade work is ongoing.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
2. Cleaner production / technology – Abatement / Treatment Systems improvements resulting in improved emission management:
Continue the ongoing optimisation work and continuous improvements on emission
abatement systems, including assessments of abatement system operation during the co-incineration of SRF. Environmental Engineer. There is ongoing optimisation with the K3 SNCR system due to the new lower NOx limit with Licence P0030-04.
Implement the plan for the monitoring of minor bag filters.
Environmental Engineer. Minor Bag Filters were tested as per plan, all filters tested were found to be in compliance with their licence limits. Ongoing further implementation of the plan.
3. Energy and Resource efficiencies:
The energy efficiency of the plant will continue to be optimised. Works Engineer. Ongoing; energy efficiency initiatives completed in 2012 included upgrading of remote switching on/off of lights to Central Control Room and automatic lighting in Engineering Building.
In accordance with Condition 7.3, continued focus will be placed on minimising, reusing
and recycling water used in factory activities. Environmental Engineer. Ongoing
In accordance with Condition 7.4, continued focus will be placed on optimising the use of
shales, bauxites, iron ore and other raw materials in the kiln feed with a view to improving product quality. In addition, the use of overburden in rawmeal to conserve shale resources and to minimise the transport of shales will continue in line with the extractive waste management plan. An application was made to the EPA on November 21st 2012 to use lime fines from Premier Periclase. This will substitute quarried limestone in the raw mix and as it has been partly calcined it will reduce CO2 emissions. Production Manager. Ongoing
In accordance with Condition 7.3, continued focus will be placed on minimising, reusing and recycling water used in factory activities. Environmental Manager. Ongoing
4. Noise:
Operate in accordance with Industry Best Practice advice to reduce impacts from quarry blasting. Quarry Manager.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Ongoing
In accordance with Condition 6.18 of the IPPC Licence, an annual review of the Noise Management Plan will be carried out. Environmental Manager. Ongoing
5. Environmental incident prevention and management:
Review Accident Prevention Policy. Health & Safety Manager. Ongoing
Review Environmental Guidelines and Instructions during the commissioning of SRF and
following the test programme. The Environmental Guidelines were reviewed and updated in 2012. Environmental Engineer. Ongoing
6. Awareness and Training:
Continue to educate plant personnel in waste segregation / recycling and other best environmental practices, though an environmental awareness campaign on-site. Environmental Engineer. Ongoing; toolbox talks to raise awareness and educate plant personnel in waste handling were completed in 2011/12.
A Continuous Improvement Group for the Environment meet regularly and strive to
improve departmental environmental performance. Environmental Manager. Ongoing; The major clean-up and re-organisation of K3 compound area was completed through the work of the Continuous Improvement Group in 2012.
7. Local Community initiatives:
Continue to engage with stakeholders through Corporate Social Responsibility initiatives. Technical Manager. Ongoing
8. Biodiversity:
Incorporate the Biodiversity Management Plan into the Environmental Management Programme, the aim of which is to protect and encourage the development of habitats in the quarries. Environmental Manager. Ongoing
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
4. Schedule of Environmental Objectives and Targets and 2013 / 2014 Environmental
Management Programme
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Schedule of Environmental Objectives and Targets and 2013/2014 Environmental Management Programme
Introduction
A new IPPC Licence P0030-04 for Platin Works was granted by the Agency on the 31st of January 2011. This supersedes the previous IPPC Licence P0030-03. A technical amendment to the licence was received on 01/03/2013. a) The ICL Platin Environmental Management Programme (EMP) has been prepared as part of the
annual budgeting process to meet the requirements of Condition 2.2.2 of the IPPC Licence No. P0030-04.
b) The time frame for the bulk of the actions planned in the EMP is for 2012 into 2013. c) The designation of responsibility for the various targets is as follows:
The Technical Manager is responsible to the Managing Director for the overall implementation of company environmental policy.
Responsibility for site operations rests with the Operations Director.
The Environmental Manager is responsible for co-ordinating the requirements of the IPPC
licence, preparation of the EMP and ensuring that the licence requirements are implemented and reported.
Major project engineering works are the responsibility of the appropriate project
engineering management teams. The local works capital expenditure and maintenance programmes are the responsibility
of the Works Engineer.
The designation of responsibility for each initiative is indicated in the EMP.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
ENVIRONMENTAL MANAGEMENT PLAN FOR 2013/2014 1. Cleaner production / technology – Process equipment / process control improvements
resulting in improved yields and efficiencies and the elimination/reduction of wastes:
Optimise the use of SRF on site in order to reduce our dependence on fossil fuels and reduce CO2 emissions. Process Manager.
Review and consider the possibility of using other Alternative Fuels. Production Manager.
Review and consider the possibility of using Alternative Raw Materials. Production Manager.
Use of lime fines from PPL to substitute limestone and reduce CO2 emissions.
Production Manager.
Continue the on-going work to optimise the plant control system. Works Engineer.
Submit a new SRF test programme proposal for increased co-firing of SRF in Kiln 3. Environmental Manager.
Optimise the environmental controls for the use of SRF at Platin.
Environmental Engineer.
Target increases in waste segregation and recycling and so reduce waste disposal to landfill. Environmental Engineer.
Optimise the clinker content in cement to reduce the CO2 emissions per tonne of cement.
Production Manager.
Complete upgrade of old plant control system to a new plant control system, integrating all parts of the plant to a single modern control system. Works Engineer.
Review all continuous emissions data – all necessary aspects of EN14181 are implemented (QAL2 & 3) Environmental Engineer.
2. Cleaner production / technology – Abatement / Treatment Systems improvements resulting in
improved emission management:
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
Continue the ongoing optimisation work and continuous improvements on emission abatement systems, including assessments of abatement system operation during the co-firing of SRF. Environmental Engineer.
Implement the plan for the monitoring of minor bag filters.
Environmental Engineer. 3. Energy and Resource efficiencies:
The energy efficiency of the plant will continue to be optimised. Works Engineer.
Recommendations of the Energy Audit Report to be reviewed and implemented. Environmental Manager.
In accordance with Condition 7.3, continued focus will be placed on minimising, reusing
and recycling water used in factory activities. Environmental Engineer.
In accordance with Condition 7.4, continued focus will be placed on optimising the use of
shales, bauxites, iron ore and other raw materials in the kiln feed with a view to improving product quality. In addition, the use of overburden in rawmeal to conserve shale resources and to minimise the transport of shales will continue in line with the extractive waste management plan. Plan to use lime fines from Premier Periclase to substitute quarried limestone. Production Manager.
Explore energy efficiency opportunities through engagement with the SEAI.
Environmental Manager.
4. Water:
Review of water usage and emissions. Environmental Engineer
Review integrity testing of pipelines and bunds as per licence requirements. Environmental Engineer.
5. Noise:
Operate in accordance with Industry Best Practice advice to reduce impacts from quarry blasting. Quarry Manager.
In accordance with Condition 6.18 of the IPPC Licence, an annual review of the Noise
Management Plan will be carried out. Environmental Manager.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
6. Environmental incident prevention and management:
Review Accident Prevention Policy. Health & Safety Manager.
Review Environmental Guidelines and Instructions during the optimisation of SRF.
Environmental Engineer.
Review Emergency Response Procedure in 2013/14. Environmental Manager.
7. Awareness and Training:
Continue to educate plant personnel in waste segregation / recycling and other best environmental practices, though an environmental awareness campaign on-site. Environmental Engineer.
A Continuous Improvement Group for the Environment will meet regularly and strive to
improve departmental environmental performance. Environmental Manager.
8. Local Community initiatives:
Continue to engage with stakeholders through Corporate Social Responsibility initiatives. Technical Manager.
9. Biodiversity:
Incorporate the Biodiversity Management Plan into the Environmental Management Programme, the aim of which is to protect and encourage the development of habitats in the quarries. Environmental Manager.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
5. Noise Management Plan 2012
Noise Management Plan Review 2012 Platin Works, Irish Cement Ltd
Date Effective: 04/01/13 Page No. 1 Completed By: A Doyle
Noise Management Plan Review 2012
Platin Works, Irish Cement Ltd
Noise Management Plan Review 2012...................................................................................1
Platin Works, Irish Cement Ltd .............................................................................................. 1
Background:.......................................................................................................................... 2
Section 5.1...................................................................................................................2
Section 5.3...................................................................................................................2
Section 6...................................................................................................................... 2
Appendix A: Conclusions and Recommendations of Arup’s Noise Management Plan 2009 ....5
Noise Management Plan Review 2012 Platin Works, Irish Cement Ltd
Date Effective: 04/01/13 Page No. 2 Completed By: A Doyle
Background:
In compliance with Condition 6.18 of the licence there is a requirement to complete an
annual review of the Noise Management Plan. Arup Consulting Engineers completed a Noise
Management Plan in October 2009and that report forms the basis of this review. The review
will highlight any changes from the Plan developed by Arup Consulting Engineers, section by
section. The Conclusions and Recommendations Section of the Arup report is attached (see
Appendix A). The full 2009 Noise Management Plan was submitted as part of the 2009 AER
submission.
Section 5.1
In order to comply with current IPPC Licence conditions – Irish Cement Ltd
commissioned NVM Ltd to complete a series of attended day and night time
measurement surveys at pre - determined sensitive monitoring locations in close proximity
to their operating works plant at Platin Drogheda. The survey for 2012 was completed over
the period from 22/08/2012 to 22/10/2012 by Noel Carr of NVM Ltd who was present in
order to obtain information on the typical noise sources in the immediate surrounds of the
sensitive monitoring locations.
Section 5.3
Results from monitoring at the Noise Sensitive Locations are included with the Annual
Environmental Noise Report which will be forwarded to the EPA as part of the 2012 AER
submission.
Section 6
o Fitting of plant and equipment with appropriate noise suppression equipment to
reduce noise levels; as far as practicable.
Ongoing
o Minimising height which material drops from plant and machinery through use of
builders chutes
Noise Management Plan Review 2012 Platin Works, Irish Cement Ltd
Date Effective: 04/01/13 Page No. 3 Completed By: A Doyle
This is still ongoing as in accordance with our Environmental Instructions and
Guidelines
o Screening of facility through use of landscaping along site boundaries
Ongoing
o Warning Sirens are activated in advance of blasting at the facility
Warning sirens have been removed from equipment that it has been deemed
unnecessary to have warning sirens on (CO2 injection to Fine Coal Bin)
o Consideration of noise characteristics when purchasing new plant and equipment
This has and will continue to be an important consideration when purchasing new
equipment
o Maintenance of all equipment in good working condition in accordance with the
manufacturer’s specification.
Ongoing
o Proper use and operation of all plant and equipment; Irish Cement Staff receive
training on operation and maintenance of equipment.
Ongoing
o Plant and equipment not in use are shut down.
Ongoing
o Noise emissions from the facility to comply with emission limits set out in Schedule B
of the IPPC licence for the facility.
Ongoing
o The Environmental Manager handles all environmental enquires and complaints.
Ongoing
Noise Management Plan Review 2012 Platin Works, Irish Cement Ltd
Date Effective: 04/01/13 Page No. 4 Completed By: A Doyle
o All noise related complaints are addressed immediately. Noise source(s) are
identified and work practices modified or re-scheduled where possible. All noise
complaints are documented on file and closed out with the complainant.
Ongoing
Noise Management Plan Review 2012 Platin Works, Irish Cement Ltd
Date Effective: 04/01/13 Page No. 5 Completed By: A Doyle
Appendix A: Conclusions and Recommendations of Arup’s Noise
Management Plan 2009
Irish Cement Ltd. Noise Management Plan Platin Works
\\DUBNTS03\DUBLIN_JOBS\D6400-D6499\D6436\5) DESIGN\40\NOISE MANAGEMENT PLAN - PLATIN WORKS\100415_NOISE MANAGEMENT PLAN_ISSUE.DOCX
Page 6 Arup Consulting Engineers Issue 15 April 2010
6 NOISE MANAGEMENT PLAN
The Noise Management Plan has been prepared to outline how noise generated during the
operation of the facility is being managed. The objective of the plan is to ensure that
procedures are put in place for the management of noise generated on-site and to prevent
impacts on local residents.
The following measures have been adopted at the Irish Cement Platin Facility and are
reviewed annually as part of the Noise Management Plan review process:
Fitting of plant and equipment with appropriate noise suppression equipment to reduce
noise levels as far as is practicable.
Maintenance of all equipment in good working condition in accordance with the
.
Proper use and operation of all plant and equipment; Irish Cement Staff receive training
on operation and maintenance of equipment.
Enclosure and/or cladding of plant and equipment that gives rise to high level noise
emissions.
Screening of facility through use of landscaping along site boundaries.
Consideration of noise characteristics when purchasing new plant and equipment.
Avoiding unnecessary vehicle reversing movements to minimise noise associated with
reversing alarms.
Minimising height which material drops from plant and machinery through use of
builders chutes.
Plant and equipment not in use are shut down.
Warning sirens are activated in advance of blasting at the facility.
Noise emissions from the facility to comply with emission limits set out in Schedule B of
the IPPC licence for the facility.
The Environmental Manager handles all environmental enquiries and complaints.
All noise related complaints are addressed immediately. Noise source(s) are identified
and work practices modified or re-scheduled where possible. All noise complaints are
documented on file and closed out with the complainant.
These measures are reviewed on an on-going basis and items arising will be addressed in
the next update of the Noise Management Plan.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
6. Receiving Water Testing
Irish Cement Ltd. Integrated Pollution Control License Register Number P0030-04.
AQUATIC MONITORING OF THE RIVER NANNY NEAR DULEEK, CO MEATH
(2012 Report)
Version: 26
th October 2012
Prepared by:-
Dr. William O’ Connor
PhD, MSc, BSc, CBiol, CEnv, MSB, MIEEM, MIFM Chartered Biologist
Chartered Environmentalist
Gerard Hayes BSc, MIEEM,
Ecologist
Tait Business Centre, Dominic Street, Limerick City, Ireland.
t. +353 61 419477, f. +353 61 414315 e. [email protected] w. www.ecofact.ie
f. www.facebook.com/ecofact
River Nanny Aquatic Monitoring Report 2012 __________________________________________________________________________
___________________________________________________________________________ www.ecofact.ie 2
TABLE OF CONTENTS
1. INTRODUCTION ..................................................................................................................... 3
1.1 BACKGROUND ................................................................................................................................. 3 1.2 THE RIVER NANNY ........................................................................................................................... 4
2. METHODS ............................................................................................................................... 5
2.1 SITE LOCATION ................................................................................................................................ 5 2.1 BIOLOGICAL ASSESSMENTS ................................................................................................................ 5
2.1.1 Macroinvertebrate sampling ............................................................................................ 5 2.1.2 Biotic Indices ..................................................................................................................... 6 2.1.3 Functional Group Analyses ................................................................................................ 6
2.1 SEDIMENT AND WATER SAMPLING...................................................................................................... 7 2.2 ECO-TOXICOLOGY TESTING ................................................................................................................ 7
2.2.1 48 h EC50 to Daphnia magna ............................................................................................. 9 2.2.1 15, 30 min EC50 to Vibrio fischeri ..................................................................................... 9
2.3 HABITAT SURVEY ............................................................................................................................. 9 2.4 OTHER WQ PARAMETERS ................................................................................................................. 9
3 RESULTS AND DISCUSSION ............................................................................................ 11
3.1 PHYSICAL HABITAT ......................................................................................................................... 11 3.2 TEMPERATURE, CONDUCTIVITY, DISSOLVED OXYGEN AND OTHER WQ PARAMETERS .................................. 12
3.2.1 Results of the on-site assessments .................................................................................. 12 3.2.2 Laboratory results ........................................................................................................... 13
3.3 SEDIMENT PSD ............................................................................................................................. 14 3.4 MACROINVERTEBRATE DIVERSITY AND ABUNDANCE ............................................................................. 15 3.4 BIOLOGICAL WATER QUALITY .......................................................................................................... 19 3.5 FUNCTIONAL GROUPS .................................................................................................................... 22 3.6 TOXICOLOGY ................................................................................................................................. 29
SUMMARY AND CONCLUSIONS ............................................................................................... 30
4 RECOMMENDATIONS ........................................................................................................ 32
REFERENCES ............................................................................................................................... 33
PLATES .......................................................................................................................................... 36
APPENDIX 1 BIOTIC INDICES. ................................................................................................... 46
APPENDIX 2 EPA WATER QUALITY DATA FOR THE RIVER NANNY. ............................... 47
APPENDIX 3 TEST REPORTS FOR THE DISCHARGE ........................................................... 48
River Nanny Aquatic Monitoring Report 2012 __________________________________________________________________________
___________________________________________________________________________ www.ecofact.ie 3
1. INTRODUCTION 1.1 Background
Irish Cement Ltd. operates a large limestone quarry and cement manufacturing facility at the
Platin Works near Drogheda, County Louth. The trade effluent from this site is discharged into
the River Nanny near Duleek, Co. Meath. This discharge is licensed by the Environmental
Protection Agency (EPA) under Integrated Pollution Control (IPC) License Register Number
P0030-04. This license has a number of conditions in relation to the monitoring of the
receiving water. The current assessment addresses the receiving water monitoring issues in
relation to the following conditions as follows:
Condition 6.14.1 The licensee shall annually evaluate the impact, if any, of the
discharge to the River Nanny. The evaluation shall be based on the ambient sampling
required under Schedule C.6 Ambient monitoring [receiving water monitoring]. In
particular the evaluation shall consider the impact of fine particulate matter in the
discharge
Condition 6.14.2 The licensee shall, if necessary, based on the results of the
evaluation incorporate additional mitigation measures for the treatment of surface
water prior to discharge.
Condition 6.14.3 The acute toxicity of the undiluted final effluent to at least four
aquatic species from different trophic levels shall be determined by standardized and
internationally accepted procedures and be carried out by a competent laboratory.
The name of the laboratory and the scope of testing to be undertaken shall be subject
to the agreement of the agency. The testing shall be carried out within three months of
the date of grant of this licence. Copies of the complete reports shall be submitted to
the agency within 6 weeks of completion of the testing.
Condition 6.14.4 Having identified the most sensitive species outlined in Condition
6.14.3, subsequent compliance toxicity monitoring on the two most sensitive species
shall be carried out annually by the laboratory identified in Condition 6.14.3, or an
alternative as may be agreed. Copies of the complete reports shall be submitted to
the agency within 6 weeks of completion of the testing.
Condition 6.14.5 A representative sample of effluent shall be screened annually for
the presence of organic compounds and heavy metals. The specification of such shall
be amended upon the instruction of the Agency. Copies of the complete reports shall
be submitted to the Agency as part of the AER.
This study provides all the required information and meets these conditions. The current study
was undertaken by Ecofact Environmental Consultants Ltd. and follows a similar assessment
completed in 2010 and 2011 as part of the requirements for the same discharge license.
Ecofact Environmental Consultants Ltd. also undertook similar monitoring as part of the
previous discharge license during 2008 and 2009 (Ecofact, 2008, 2009).
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1.2 The River Nanny The River Nanny (OS Catchment No: 160; EPA code: 08N01) is located in County Meath in
the Eastern River Basin District (Hydrometric Area 8). The River Nanny rises near Kentstown
and flows east through Duleek and Julianstown to enter the sea at Laytown, roughly 6 km
south of Drogheda. Overall it has a total length of 28 km and a catchment area of 239 km2
(McGinnity et al, 2003). Upstream of the discharge point, the catchment area of the River
nanny is approximately 200km2. At this location, the river has a 50%ile and 95%ile flow of
1.91m3/s and 0.323m
3/s respectively (EPA Hydrometric data system).
The River Nanny has a long history of pollution; mainly from agricultural sources (McGarrigle
et al, 2004). In Appendix 2, a summary of water quality in the River Nanny along with overall
water quality in Hydrometric Area 8 during the most recently published EPA survey is
presented.
The entire River Nanny was in an unsatisfactory ecological condition when most recently
monitored by the EPA in August 2010 (source EPA website). The stations at Folistown (0400)
and the east Bridge at Kentstown (0110) were both rated ‘Moderately Polluted (Q3)’,
equivalent to Water Framework Directive (WFD) ‘poor status’. The nearest EPA biological
monitoring station upstream of the Irish Cement discharge is at the bridge upstream of Nanny
Bridge. This part of the river was rated ‘Slightly polluted (Q3-4)’ corresponding to WFD
‘moderate status’. Downstream of the study area, the River Nanny was rated ‘‘Moderately
Polluted (Q3)’ at the Bridge NE of Bellewstown House (station 0500) and at the Bridge at
Julianstown (station 0700).
The River Nanny is in the Eastern River Basin District and is within the Nanny Water
Management Unit (WMU) where the land use is predominantly agricultural (ERBD, 2009). A
Water Management Unit (WMU) is a geographic area primarily defined by similar hydrology
and topography.
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2. METHODS
2.1 Site location
The locations of the six study sites (Site N1 to N6) are given in Table 1 and Figure 1. The
location of the discharge from the Irish Cement plant is also indicated in Figure 1. Site
photographs are provided in Plates 1 to 6. The sites surveyed are at the same locations as in
previous assessments (i.e. Ecofact, 2008 - Ecofact, 2011). Freshwater toxicity tests (eco-
toxicology testing) were carried out on a sample of the discharged effluent. The sampling
location was within the Irish Cement premises at NOS Grid Reference O06602 71234 i.e.
approximately 15 meters south of the southern entrance to the plant and 5 meters west of the
R152 Road (see Plate 7).
Table 1 Location of six biological and sediment sampling sites.
Site N1 N2 N3 N4 N5 N6
Habitat Category
Riffle Glide Pool Pool Glide Riffle
Sample type
Receptor Receptor Receptor Reference Reference Reference
Location Downstream of outfall
Downstream of outfall
Downstream of outfall
Upstream of outfall
Upstream of outfall
Upstream of outfall
NOS Grid Reference
O07976 69254
O07865 69186
O07783 69171
O07589 69186
O07537 69165
O07349 69166
2.1 Biological Assessments 2.1.1 Macroinvertebrate sampling
Semi-quantitative sampling of benthic macroinvertebrates was undertaken at the six sites
listed using kick or sweep sampling (Toner et al, 2005). Sampling was undertaken on the 24th
and 25th of July 2012. A total of three sites were located within a 0.5 km section of river
extending upstream of the Irish Cement discharge point (reference sites), and three sites were
located over a similar distance downstream (receptor sites). Representative riffle, glide and
pool habitats (EA, 2003) were sampled at both reference and receptor locations. Site 1 was
located downstream of an old mill weir while site N2 was located upstream of this
impoundment. The presence of this weir on the section can be expected to influence local
sedimentation rates.
The biological sampling procedure followed at each site involved the use of a ‘D’ shaped hand
net (mesh size 0.5 mm; 350 mm diameter) which was submerged on the river bed with its
mouth directed upstream. The substrate upstream of the net was then kicked for one minute
in order to dislodge invertebrates, which were subsequently caught in the net. This procedure
was undertaken at three points along/across the watercourse. Stone washings and vegetation
sweeps were also undertaken over a further 1 minute period to ensure a representative
sample of the fauna present at each site was collected.
All three samples of invertebrates from each substation were combined and live sorted on the
river bank for 20 minutes with the assistance of a headband magnifier. Specimens were fixed
in a 10% formalin solution. Identification was undertaken in the laboratory using high-power
and low-power binocular microscopes. All collected samples have been archived and will be
retained for 1 year.
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2.1.2 Biotic Indices 2.1.2.1 The Quality Rating (Q) System The Quality Rating (Q) System (Toner et al, 2005) is the standard biotic index which is used
by the EPA. This method categorises invertebrates into one of five groups, depending on their
sensitivity to pollution. Further details on the Q-rating system and its relationship to the
European Communities Environmental Objectives (Surface Waters) Regulations 2009 (S.I.
272 of 2009) are provided in Appendix 1.
2.1.2.2 BMWP (Biological Monitoring Working Party) Score
In the revised BMWP scheme (Walley and Hawkes, 1997) biotic index of water quality, each
family recorded in the sample is assigned a habitat specific score. This score depends on the
pollution sensitivity of the invertebrate family together with the characteristics of the site where
the invertebrates were found. A site is classed as one of the following depending on substrate
type: riffle (>= 70% boulders and pebbles), pool (>= 70% sand and silt) or riffle/pool (the
remainder). The BMWP score is the sum of the individual scores of the families recorded at
each site - a family scores if present. A higher BMWP score is considered to reflect a better
water quality and a score over 100 is indicative of very good water quality.
2.1.2.3 Trent Biotic Index The Trent Biotic Index (Woodiwiss, 1960) is based on the number of defined taxa of benthic
invertebrates in relation to the presence of six key organisms found in the fauna of the sample
site. Depending on the number of taxonomic groups present and the key organisms found in
the fauna, the TBI index ranges from ten for clean water, to zero for polluted water.
2.1.2.4 Chandler Biotic Score The Chandler Biotic Score (Chandler, 1970) also assigns values to taxonomic groups ranked
in terms of pollution sensitivity but, in addition, provides scores for each species which is
present in the taxonomic groups. This is a more powerful, albeit more taxonomically
demanding, system than the previous biotic indices. Each group is given a score according to
its abundance. The total score represents the index and the higher the score the cleaner the
water.
2.1.3 Functional Group Analyses Functional Group analysis is a classification technique for stream macroinvertebrates which
involves the functional analysis of invertebrate feeding, based on morpho-behavioural
mechanisms of food acquisition. A number of functional feeding groups of invertebrates occur
in streams. These are Shredders, Collectors (or filterers), Scrapers (or grazers), and
Predators. Shredders chew, mine, bore and gouge large particles such as leaves, sterns and
branches which may be dead or alive. Filterers filter particulate matter, alive or dead, from the
water. Collectors again feed on small particulate matter but gather the fine detritus off the
sediment or other surfaces rather than from the open water. Grazers graze and scrape the
periphyton off other surfaces. Predators are subdivided into engulfers, which eat the whole
prey item swallowing it whole or by chewing, and piercers, which pierce the prey and suck
fluids out. Food sources vary along the length of a river. Narrow upland streams, for example,
rely heavily on allochthonous leaf debris (known as CPOM or Coarse Particulate Organic
Matter) which can be used by shredders. In downstream areas, the fine debris of demolished
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leaves (known as FPOM or Fine particulate Organic Matter) will support collectors. Changes
in functional groups reflect changes in food sources, nutrient processing and energy flow in
the river system. Human influences on a river can dramatically alter food sources and in turn
affect the trophic groups. This method of analyses was therefore used as it provides a high
resolution insight into the ecology of a river and has the ability to detect more subtle changes
in community structure than would be apparent from biotic indices. Some of the mayfly larvae
recorded exhibit dual feeding strategies (scrapers and collector gatherers). In the functional
group analysis, where this occurred 50% of mayfly larvae were categorized as scrapers and
50% as collector gatherers.
2.1 Sediment and Water Sampling A sediment sample was obtained for analyses at each of the six sites using a hand held grab.
Three sub-samples were taken and combined into a composite sample for each site. Each
sub-sample was taken from undisturbed relatively homogeneous sediment deposits at the
site. Each sample was placed into a mixing bowl and objects such as sticks and leaves etc.
were removed as necessary. The sample was then stirred thoroughly with a mixing spoon to
homogenize. The sample was then placed into a glass sample jar.
Substrate samples were also taken from the riverbed at each site using a core sampler.
Depositing parts of the river were selected for this sampling with the aim of collecting
undisturbed samples of saturated sands, silts, and sediments. The profile of these samples
were examined in the field on a tray for the presence of accumulations of silt /clay near the
surface.
A water sample of the effluent was taken on the 25th July 2012. The water sample was
analysed for Total Petroleum Hydrocarbons, Diesel Range Organics, Heavy Metals and
Petroleum Range Organics. BOD (Biochemical Oxygen Demand) and Total Hardness were
analysed in samples taken from Sites N1 and N6. Samples were labelled and placed in a
cooler box and were promptly delivered to the laboratory (BHP Laboratories, Limerick). During
sampling appropriate measures to prevent contamination from other sources was undertaken
and all sampling equipment had been thoroughly cleaned.
2.2 Eco-toxicology testing Condition 6.14.4 of the IPPC license requires toxicological testing to be carried out on the two
most sensitive species tested in 2010. The species chosen for toxicity resting was a
freshwater crustacean Daphnia magna which was subject to an immobilization test and a
bioluminescent bacteria Vibrio fischeri in a Microtox - light inhibition test.
Toxic pollutants can be described in terms of acute and chronic toxicity. Acute toxicity is when
a large dose of pollutant is released in a short period of time whereas chronic toxicity is a low
dose of pollutant released over a long period of time, the former having more of a lethal effect
on the biota of the receiving water. Chronic toxicity can be lethal or sub-lethal and can result in
the mal-functioning of organisms by impairing biochemical, physiological, behavioral or life-
cycle functions. When toxic pollutants enter the aquatic environment they may be altered by
influences such as temperature, the quality of the water, pH and hardness. It is well known
that temperature influences the metabolic activity and behavior of organisms however it can
also alter the physical and chemical state of pollutants. For some toxicants, increasing
temperature results in increasing toxicity of the pollutant.
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Toxic contaminants are rarely individual chemicals, effluents or metals; more often than not
they are mixture of poisons. When two or more pollutants are present in an effluent they may
exert a combined effect on an organism which is said to be additive, the contaminants may
also interfere with one another, an antagonistic effect or the overall effect of the pollutant on
an organism maybe greater than when acting alone, a synergism effect (Mason, 2002).
In order to minimize the effects of pollutants on the environment toxicity tests have been
developed to assess the toxicity of an effluent and to predict, in conjunction with other
information e.g. available dilution, chemical characterisation, the impact it will have on the
receiving waterbody. The receiving waterbody dictates the selection of the test organisms.
The receiving waterbody is freshwater.
Toxicity testing is essentially for environmental protection of an area, to control the wastes
from animal residues and humans, to monitor industrial and manufacturing processes in order
to issue discharge licences, for legal and ethical issues i.e. to protect biota in aquatic
ecosystems. Toxic units are used in Irish discharge licenses for compliance monitoring and
the general limits for these toxic units are outlined below in Table 2 below. The higher the
Toxic Unit value, the greater the toxicity. A single toxic unit would signify a marginal or
negligible level of toxicity while 3TU might suggest some potential for effects (Cronin, 2006).
Table 2 Interpretation of toxic units.
Toxic Units Description
<3 Non toxic
3-10 Slightly toxic
11-50 Toxic
50-100 Very toxic
>100 Extremely toxic
The objectives of toxicity tests are to:
1. Assess the toxicity and lethality of compounds i.e. to what extent are the compounds
hazardous to the environment, to humans, to animals etc.
2. To test the effects of environmental factors on waste toxicity i.e. temperature, pH,
salinity, water hardness
3. To investigate trophic mobility i.e. how do compounds move up through the
ecosystem
4. To test the toxicity of a waste to a test species i.e. at each trophic level a test species
is investigated e.g. a primary producer, primary consumer and secondary consumer.
A sample of the discharge from the Irish Cement plant was taken on the 25th July 2012. The
sample consisted of 1litre and was taken by accessing the discharge via a manhole adjacent
to the R152 road. The sample of the discharge was placed in a cooler box and immediately
brought to the SATL. Toxicology tests were carried out on the sample by Shannon Aquatic
Toxicity Laboratories (SATL). This is a specialised facility for culturing and testing aquatic
organism which has been accredited for Daphnia and Microtox testing. The tests carried out
were as follows:
48 h EC50 to Daphnia magna
15,30 min EC50 to Vibrio fischeri
The methodology used for each of the above tests followed the “Organization for Economic
Co-operation and Development (OECD) guidelines for testing of chemicals”. Data from each
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test was used to screen for toxicity i.e. to determine if the effluent was toxic. Each test is
discussed separately below. In each test a concentration series is set up where the test
organism is placed in 100%, 56%, 32%, 18%, and 10% neat effluent. A control is set up; for
Daphnia potassium dichromate is a reference chemical and for the bacteria Vibrio fischeri, the
metal zinc sulphate is commonly used. Exposure times are pre-determined depending on the
species being tested. Further details of each test are provided below.
2.2.1 48 h EC50 to Daphnia magna Effective Concentration (EC) is the term used when an effective other than death is used such
as respiratory stress, behaviour or developmental abnormalities. This method followed the
‘OECD guideline for the testing of chemicals’ within the section ‘Daphnia magna acute
immobilisation test’. This freshwater cladoceran is ubiquitous, is sensitive to pollutants, has a
high reproductive rate (Daphnia reproduce asexually every 10-12 days), is easily cultured, has
a role in many food webs and its ecology has been well studied (Mason, 2002). Therefore it is
widely used in toxicity testing. Daphnia magna neonates (less than 24hours old) are exposed
to the varying concentrations of the effluent sample usually with five replicates of 10
individuals for each concentration. The concentrations follow a geometric series and the EC50
values are calculated using appropriate software e.g. MINITAB. From this the estimated
percentage of immobilised Daphnia after 48hours is calculated.
2.2.1 15, 30 min EC50 to Vibrio fischeri This test involves using the marine bacteria Vibrio fischeri. This is a photoluminescent
bacteria. This toxicity test is based on a decrease in light output. If properly grown these
bacteria produce light (a by-product of cellular respiration). An inhibition of cellular activity
(toxicity) results in decreased rates of respiration and a decrease in the rate of luminescence.
This method involves using freeze-dried bacteria which have a shelf life of up 18 months and
a temperature controlled (15 to 27oC) photometer is used to measure light output. The test
measures luminescence inhibition after 15 and 30 minutes of exposure and is commonly used
for wastewater treatment testing, surface water monitoring and sediment and soil
contamination testing.
2.3 Habitat Survey Physical habitat assessments were undertaken at the six biological sampling sites. Habitat
has a key influence on the macroinvertebrate communities, which occur in rivers and streams.
The physical habitats of study sites were assessed in relation to macroinvertebrates using a
method given by Barbour and Stribling (1991). This method assesses habitat parameters and
rates each parameter as optimal, sub-optimal, marginal or poor (scores 5, 10, 15 and 20
respectively). The scores for each parameter are then added up to give an overall habitat
score.
2.4 Other WQ parameters During the current survey Conductivity (µs cm
-1), water temperature (
oC), and Dissolved
Oxygen (mgl-1
and % saturation) were measured using on-site using portable meters. These
parameters, along with salinity and pH were also measured in the water sample provided to
Enterprise Ireland for eco-toxicology testing.
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Figure 1 Map of the study area showing the location of the Irish Cement outfall to the River Nanny and river survey sites.
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3 RESULTS AND DISCUSSION 3.1 Physical Habitat The physical habitat characteristics of the six sites assessed during the July 2012 survey are
presented in Table 3. The physical habitat assessment of the six sites with respect to their
suitability for macroinvertebrate production is presented in Table 4. All sites were rated as being
sub-optimal for macro-invertebrate production with generally marginal pool quality, habitat
complexity and canopy cover. Siltation in the surveyed stretch of river continues to be a problem
despite the unusually wet summer brought about by the high rainfall levels. In the past, the EPA
has indicated that land disturbance (such as ploughing) could possibly be a cause of siltation in
the river. Indeed, a large proportion of lands in the study area are used for crops such as
potatoes and grains which require ground preparation and exposing bare soil, with potential for
suspended solids runoff.
Table 3 Physical characteristics at the six sampling sites.
Parameter N1 N2 N3 N4 N5 N6
Habitat Category Riffle Glide Pool Pool Glide Riffle
Sample type Receptor Receptor Receptor Reference Reference Reference
Wetted width (m) 5 7 7 6 7 6
Bank height (cm) 130 100 100 100 150 50
Bank cover (%) 95 95 100 100 95 100
Bank slope (degrees) 50 65 70 80 65 40
Canopy cover (%) 10 5 5 5 0 0
Flow (cm/s) 40 15 5 5 15 50
Riffle (%) 30 0 0 0 0 50
Glide (%) 40 10 10 10 50 30
Pool (%) 30 90 90 90 50 20
Mean depth (cm) 30 100 70 85 80 60
Maximum depth (cm) 60 140 110 100 120 100
Rock (%) 20 20 40 20 25 5
Cobble (%) 30 40 25 15 25 15
Gravel (%) 20 15 15 15 20 60
Fine (%) 30 25 20 50 30 20
In-stream vegetation (%) 15 5 15 10 5 20
Table 4 Physical habitat assessment of the six sites for their suitability for macroinvertebrate production (adapted from Barbour and Stribling, 1991). Site N1 N2 N3 N4 N5 N6
Habitat Category Riffle Glide Pool Pool Glide Riffle
Sample type Receptor Receptor Receptor Reference Reference Reference
Bottom substrate 10 5 5 5 5 10
Habitat complexity
15 10 10 10 10 15
Pool quality 5 5 5 5 5 5
Bank stability 15 15 20 20 15 20
Bank protection 15 15 20 20 15 20
Canopy 10 10 10 10 10 5
Score 70 60 70 70 60 75 Overall Assessment
Suboptimal Suboptimal Suboptimal Suboptimal Suboptimal Suboptimal
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3.2 Temperature, Conductivity, Dissolved Oxygen and other WQ
parameters
3.2.1 Results of the on-site assessments On-site water quality assessments were carried out on the 24
th and 25
th of July 2012 at the six
sites sampled on the River Nanny (see Table 5). It is noted that Sites N1 to N5 were sampled on
the 24th
at a time when water levels were considered slightly higher than normal. Site N6 was
sampled on the 25th of July and following overnight rainfall, the river was in flood at this time.
However, the sampling could still be completed and water levels did not significantly affect the
sampling. It is noted that 2012 was a very wet year and it was impossible to time this year's
survey to a period of low rainfall.
Dissolved Oxygen (D.O.) concentrations ranged from 78% saturation (Site N6 at 11.30) to 109%
saturation (Site N2 at 15.55). With regard to D.O. concentrations on the 24th July, there was little
variation between Sites N1-N5. Downstream of the discharge, D.O. was 107.6% at Site N1 (time:
14.05) rising to 109% at N2 (time: 15.55) and dropping back to 105% at N3 (time: 16.58).
Upstream of the discharge, D.O. was 108.4% at N4 (time: 17.57) and 102.4% at N5 (time: 18.54).
Diurnal fluctuations in D.O. can be expected to occur naturally in rivers and the D.O. range is in
indication of aerobic activity and Biochemical Oxygen Demand (B.O.D.). In the EPA Q-rating
scheme, a D.O. within the range 80% - 120% is indicative of ‘Good status’ conditions. There was
little variation in the D.O. levels between Sites N1 and N5 over the period 14.05 to 18.54,
indicating stable oxygenation conditions and good water quality on the 24th July. The Dissolved
Oxygen (D.O.) saturation of 78% at Site N6 on the 25th was indicative of 'Moderately polluted'
conditions however. The decrease to 78% saturation at Site N6 was thought to be brought about
by lowering of D.O. concentrations overnight (absence of photosynthesis during darkness)
together with the turbid conditions resulting from the flood (low light penetration). Furthermore,
B.O.D. at Site N6 (and at other sites) probably increased during the flood conditions due to runoff
from lands in the catchment.
Conductivity was in the range 688 µS/cm - 708 µS/cm on the 24th July. On this day Conductivity
was lower at Sites N1-N3 downstream of the discharge point (mean value = 692 µS/cm), the
mean value of this parameter being 705 µS/cm at Sites N4 and N5. Conductivity was 565 µS/cm
at Site N6 which was sampled on the 25th July in high water conditions, significantly lower than
other sites. This result was deemed to be strongly influenced by runoff.
On-site water quality measurements of the discharge immediately upstream of the River Nanny
were taken on the 25th July. The conductivity of the discharge on this day was 682 µS/cm.
Dissolved Oxygen (D.O.) in the discharge at time 12.20 was 102% (10.17 p.p.m.) at a
temperature of 13.20C.
Based on the on-site chemical results for Dissolved Oxygen and Conductivity, there was no
evidence to suggest that the River Nanny was being negatively affected by the Irish Cement
discharge.
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Table 5 Results of the July 2012 on-site water quality assessments. Site N1 Site N2 Site N3 Site N4 Site N5 Site N6
Temperature (oC) 15.7 15.5 15.3 15.5 15.3 14.6
Dissolved Oxygen (%) 107.6 109 105 108.4 102.4 78
Dissolved Oxygen (mg O2l-1
) 10.67 10.84 10.58 10.82 10.27 7.92
Time of D.O. reading 14.05 15.55 16.58 17.57 18.54 11.30
Conductivity (µS cm-1
) 688 695 692 706 704 565
3.2.2 Laboratory results
Chemical water quality results for the discharge were obtained from the sample taken on the 25
th
July for testing. The Dissolved Oxygen (D.O.) saturation was 100% at 18.50C. Salinity was <1ppt
at 200C. pH was 7.4 at 18.4
0C. The discharge was also analysed for Total Petroleum
Hydrocarbons, Diesel Range Organics, Mineral Oils, Total Volatile Organic Compounds (TOC's)
and Heavy Metals. The full suite of results for particular species can be seen in Appendix 3.
All Total Petroleum Hydrocarbons (C6-C40, C6-C8, C8-C10, C10-C12, C21-C40) analysed were below the
level of detection at <0.001mg/l. Petroleum Range Organics and Diesel Range Organics were
also present in concentrations less than 0.001mg/l. Mineral Oil concentration was less than
0.01mg/l. In the Freshwater Fish Directive (79/923/EEC) and Salmonid Waters Regulations
(1988) there are no recommended or mandatory limit values for Hydrocarbons. However, it is
stated that Petroleum products must not be present (in water) in such quantities that they: - form
a visible film on the surface of the water or form coatings on the beds of water-courses and lakes
- impart a detectable 'hydrocarbon' taste to fish - produce harmful effects in fish. In this respect,
the discharge was compliant as no slick was seen nor did it impair the water surface of the River
Nanny following mixing.
Table A4.3 presents BOD (Biochemical Oxygen Demand) and Total Hardness results from Sites
N1 and N6 on the River Nanny. Water samples for these parameters were taken on the 25th July.
BOD downstream of the discharge was 1mg/l and 2mg/l upstream of the discharge. Total
hardness downstream (Site 1) and upstream (Site 6) of the discharge was 320mg/l and 300mg/l
respectively.
Results for Heavy Metals including Arsenic, Copper, Cadmium, Chromium, Lead, Nickel, Tin and
Selenium were all below the level of detection (L.O.D.) i.e. <1 µg/l, with Mercury below the 0.2
µg/l L.O.D. Zinc was the only Heavy Metal detected at a concentration greater than 1 µg/l, this
parameter was present in the trade effluent sample at a concentration of 12 µg/l. In the European
Communities Environmental Objectives (Surface Waters) Regulations 2009, the Maximum
Allowable Concentration (MAC) for Zinc in inland surface waters is dependent on water hardness.
The annual average MAC for Zinc is 8 μg/l for water hardness with annual average values less
than or equal to 10 mg/l CaCO3, 50 μg/l for water hardness greater than 10 mg/l CaCO3 and less
than or equal to 100 mg/l CaCO3 and 100 μg/l elsewhere. The annual average MAC for Zinc in
the River Nanny is therefore 100 μg/l considering Hardness in the River Nanny was in the range
300-320mg/l. Zinc in the trade effluent would be significantly diluted by the River Nanny following
mixing, and the concentration of Zinc in the River Nanny downstream of the discharge point
would be significantly less than 12 μg/l, and well below the annual average MAC of 100 μg/l.
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Based on laboratory results for BOD, hardness, Organic compounds and Heavy Metals, there
was no evidence to suggest that the River Nanny was being negatively affected by the Irish
Cement discharge. The overall results obtained are very similar to the previous monitoring
assessments.
3.3 Sediment PSD The results of the PSD (particle size distribution) analyses of fine sediments sampled at the six
survey sites are presented in Table 6.
The bulk of the fine sediments sampled in the current study comprised sand and gravels.
Samples at Sites N2-N5 contained no pebbles, N1 the only sample with this substrate type (only
1%). There was little difference in the PSD between riffled Sites N1 and N6. At Sites N1 and N6,
85% and 89% of particles were less than 6.3mm (lower threshold for gravel) respectively. At Sites
N1 and N6, 15% and 11% of particles were less than 0.15mm (lower threshold for sand), in that
order. The finest fraction of particles (corresponding to silt/clay) at Site N1 was 12% and 9% at
N6. The main component of the samples taken at the glide sites N2 and N5 was between
0.15mm and 5mm i.e. sand. The proportion of sand at Site N2 and N5 was 53% and 46% in that
order. There was a higher percentage of the finer sands at the reference site N5 than the receptor
site N2. The reference glide site (N5) had slightly more silt/clay particles (10%) than the receptor
glide site (8%). The pool sites N3 and N4 are the nearest receptor and reference sites to the point
of discharge respectively. The sample at N3 consisted of 11% gravel material (6.3mm-14mm).
Particles in this size range accounted for 22% of the sample at N4. The dominant matter in the
glide samples was sand. There was close correspondence of larger grained sands between Sites
N3 and N4. For example, 76% and 72% of particles were less than 5mm at Site N3 and N4
respectively, with 65% of grains at both sites less than 3.35mm. The proportion of smaller grain
sands at Site N4 increased relative to N3. For example, the smallest sized sand (0.063-0.15)
comprised 25% of material in the N4 sample and 17% in the N3 sample. The silt/clay proportion
at Sites N3 and N4 was 11% and 14% respectively.
Visual examination of core samples taken from depositing parts of the river at each site did not
detect any major differences in substrate composition across the study area. In particular, there
was no observable variation in the fine top layer of samples. Profiles of substrates from core
samples largely corresponded with the PSD results.
The current PSD and field results do not show any noteworthy difference in fine substrate
composition between samples taken upstream and downstream of the Irish Cement trade effluent
discharge point. In particular, the component of the substrate most likely to be influenced by the
discharge (i.e. the silt/clay fraction of samples) did not increase in samples taken downstream
of the discharge point. The results obtained are very similar to the previous monitoring
assessments.
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Table 6 Results of the Particle Size Distribution Analyses of fine sediments sampled at the six survey sites. Category Particle
size (mm) % Passing in each sample
N1 N2 N3 N4 N5 N6
Habitat type
Riffle Glide Pool Pool Glide Riffle
Sample type
Receptor Receptor Receptor Reference Reference Reference
Cobbles 125 100 100 100 100 100 100 100 100 100 100 100 100 100 75 100 100 100 100 100 100 Pebble 63 100 100 100 100 100 100 50 100 100 100 100 100 100 37.5 100 100 100 100 100 100 28 100 100 100 100 100 100 20 99 100 100 100 100 100 Gravel 14 97 90 100 97 96 99
10 92 86 98 85 82 64
6.3 85 72 89 78 78 89
Sand 5 79 67 76 72 61 85
3.35 71 62 65 65 49 78
2 64 50 55 59 41 69
1.18 54 30 51 52 34 56
0.6 45 21 34 48 31 44
0.425 40 18 27 40 25 38
0.3 31 16 23 33 20 29
0.212 22 15 19 29 18 20
0.15 15 14 17 25 15 11
Silt/Clay 0.063 12 8 11 14 10 9
3.4 Macroinvertebrate Diversity and Abundance Table 7 presents the results of the on-site macroinvertebrate survey at the six sites surveyed on
the River Nanny during July 2012. Macroinvertebrate diversity and abundance at each of the six
sampling sites is illustrated in Figure 2.
During the survey of the six sites, a total of 1,983 macroinvertebrates comprising 38 families were
identified. At the receptor sites a total of 1005 macroinvertebrates were collected while a total of
978 macroinvertebrates were collected at the references sites. Family richness for the receptor
sites combined was 36 in comparison with 32 at the references sites combined.
Macroinvertebrate family diversity at Site N1, the receptor riffled site was 24. Mayfly recorded at
this site were larval pollution tolerant Baetis rhodani (fair numbers) and Ephemerella ignita
(numerous) as well as pollution sensitive Ecdyonurus dispar (present). Pollution tolerant larvae of
blackfly was the most abundant organism at this location. The crustaceans Asellus aquaticus and
Gammarus deubeni were numerous and few respectively. Molluscs recorded at this site were
Bithynia tentaculata, Ancylus fluviatilis and Pisidium sp. Trichopterans (caddisflies) were
represented by two cased (Goera pilosa, Potamophylax sp.) and two un-cased families
(Polycentropus kingi, Rhyacophila dorsalis). The beetles Potamonectes depressus elegans,
Helephorus sp., Haliplus sp. and Elmis sp. as well as aquatic earthworms were also recorded
among the macroinvertebrate assemblage at this site.
The receptor glide site (N2) had a family richness of 28, the most families recorded at any site
during the current assessment. Ephemeropterans were a well represented group with four
species recorded; B. rhodani, E. ignita, E. dispar and Caenis sp. An equally assorted group were
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the Trichopterans, with larvae of the following Group B less sensitive/cased species
scarce/present: Sericostoma personatum; Potamophylax sp., Lepidostoma hirtum and Goera
pilosa. True fly larvae of Simulidae, Green chironomids and Chironomous sp. all tolerant of
pollution were generally common at this location. B. tentaculata, P. carinatus, Pisidium sp., Physa
sp. and A. fluviatilis were also found these molluscs by and large recorded in small numbers.
Other macroinvertebrates recorded at this site were Sialis sp. (alderfly larvae), Helophorus sp.
and the leeches Erpobdella octoculata and Glossiphonia complanata.
A total of 22 macroinvertebrates families were recorded at the receptor pool site (N3). The most
diverse order of macroinvertebrate at this location were Coelopterans with beetles in 5 families
recorded. P. depressus elegans was common, with other beetles (Helephorus sp., Haliplus sp.,
Gyrinus sp. and Elmis sp.) present or recorded in fair numbers. Fair numbers of pollution tolerant
G. deubeni and very tolerant A. aquaticus were recorded. Mayfly larvae of B. rhodani and Caenis
sp. were present and scarce in that order with fair numbers of E. ignita. Trichopteran larvae
recorded were limited to cased species, Potamophylax sp., Hydroptila sp. and L. hirtum all
present. P. depressus elegans of Coeloptera were common with Elmidae, Hydrophillidae and
Haliplidae being generally scarce in this group. The assemblage also comprised the molluscs B.
tentaculata and Pisidium sp. Other organisms recorded at this site were the bugs Notonectidae
(Greater water boatman) and Gerris sp.
A macroinvertebrate family richness of 23 was recorded in the reference pool site (N4). The most
abundant macroinvertebrate at this site was the snail B. tentaculata which was abundant. Other
molluscs recorded at this location were Physa sp. and A. fluviatilis (both present). The
Crustaceans G. deubeni and A. aquaticus were common and scare in that order. Mayfly larvae of
E. ignita were common while larval B. rhodani and Caenis sp. were present. The Trichopteran
community at this site was confined to cased caddisfly larvae of Potamophylax sp. and Hydroptila
sp Other macroinvertebrates recorded included the leeches Piscicola geometra and E.
octoculata, aquatic earthworms,) and Nematomorpha. The only damselfly larvae recorded during
the current study was at Site N4, with less sensitive Agrion splendens being scarce. Adults of this
species were also recorded on the wing and spent alongside the river.
A family richness of 27 was recorded at the reference glide (Site N5) where a total of 260
macroinvertebrates were recorded. Pollution tolerant G. deubeni and very tolerant A. aquaticus
were common. Fair numbers of bloodworm Chironomous sp., green chironomid and Simulidae of
Diptera were recorded with Dicranota sp. of this group being present. The Trichopterans were the
best represented group at this site. Caseless caddisfly larvae of Hydropsyche sp. and
Rhyacophila dorsalis were present with cased larvae of S. personatum, Potamophylax sp. and L.
hirtum generally scarce. Mayfly larvae of B. rhodani, E. dispar and Caenis sp. were
scarce/present with larval E. ignita being common. In addition, aquatic earthworms
(Lumbriculidae and Lumbricidae), leeches (P. geometra, E. octoculata) and molluscs (A.
fluviatilis, B. tentaculata, Pisidium sp.) were recorded at this site.
Macroinvertebrates in different 22 families were recorded at the reference riffle site (N6). Mayfly
larvae of E. ignita were numerous while fair numbers of B. rhodani were recorded. G. deubeni
and A. aquaticus were found in fair numbers and small numbers, in that order. Pollution tolerant
true fly larvae of the Simulidae and green chironomids were generally common, most tolerant
Chironomous sp. being scarce and Dicranota sp. being present. Trichopteran larvae were
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generally scarce, the following being recorded: Hydropsyche sp. R. dorsalis, S. personatum,
Potamophylax sp. and L. hirtum.
The macroinvertebrates recorded during the current survey are typically those associated with
polluted lowland Irish limestone rivers. Molluscs and crustaceans were the most abundant groups
recorded and far outweighed any other major macroinvertebrate groups.
Compared to 2011, there was a decrease in family richness at riffled Sites N1 and N6. All other
sites showed a reversal of this trend, with family richness at glide and receptor sites increasing
both upstream and downstream of the discharge point. There was however no evidence to
suggest that the macroinvertebrate communities of the River Nanny are being negatively affected
by the Irish Cement discharge.
Table 7 Results of the on-site macroinvertebrate survey at the six survey sites on the River Nanny during July 2012. Pollution
sensitivity group
Functional group
Site N1
Site N2
Site N3
Site N4
Site N5
Site N6
Habitat Category Riffle Glide Pool Pool Glide Riffle
Sample type receptor
receptor
receptor
reference
reference
reference
SEGMENTED WORMS (Annelida, Clitellata)
Aquatic earthworm (Lumbricidae) D Gathering collector
3 1 2 1
Aquatic earthworm (Lumbriculidae) D Gathering collector
10 6 1 4 8 7
HORSEHAIR WORMS (Nematomorpha)
D Gathering collector
1 1
LEECHES (Hirudinea)
Glossiphonia complanata D Predator 3
Erpobdellidae
Erpobdella octoculata D Predator 3 4 1 2 4
Piscicolidae
Piscicola geometra C Predator 1 4 1 1
SNAILS (Mollusca, Gastropoda)
Planorbiidae
Keeled ramshorn snail Planorbis carinatus
C Scraper 3
Ancylidae
River limpet Ancylus fluviatilis C Scraper 25 3 3 6 19
Family Hydrobiidae
Common Bithynia Bithynia tentaculata
C Shredder 11 45 22 95 34 16
Physidae
Physa sp. C Shredder 2 2
MUSSELS (Mollucsa, Lamellibranchiata)
Orb/ Pea Mussels (Sphaeridae)
Pisidium sp. D Filtering collector
6 10 7 4 8 10
CRUSTACEANS (Crustacea)
Amphipods (Amphipoda, Gammaridae)
Freshwater shrimp Gammarus deubeni
C Shredder 80 22 15 32 20 67
Isopods (Isopoda, Asellidae)
Hog louse Asellus aquaticus D Shredder 10 27 20 6 29 17
MAYFLIES (Uniramia, (Ephemeroptera)
Baetidae
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Pollution sensitivity group
Functional group
Site N1
Site N2
Site N3
Site N4
Site N5
Site N6
Habitat Category Riffle Glide Pool Pool Glide Riffle
Sample type receptor
receptor
receptor
reference
reference
reference
Baetis rhodani C Scraper & gathering collector
15 11 4 2 6 19
White midges (Caenidae)
Caenis sp. C Gathering collector
4 10 4 5
Empherellidae
Empherella ignita C Gathering collector
95 47 26 39 38 105
Heptageniidae
Ecdyonurus dispar A Scraper and gathering collector
1 1 2
CASELESS CADDIS FLIES (Trichoptera)
Grey flags (Hydropsychidae)
Hydropsyche sp. C Filtering collector
1 1
Trumpet-net Caddisflies (Polycentropodidae)
Polycentropus kingi C Filtering collector
1
Rhyacophilidae
Rhyacophila dorsalis C Predator 1 1 1
CASED CADDIS FLIES (Tricoptera)
Sericostomatidae
Black caperer Sericostoma personatum
B Shredder 2 3 6
Limnephilidae
Potamophylax sp. B Shredder 5 3 3 4 8 3
Family Goeridae
Goera pilosa B Shredder 3 1
Microcaddisflies (Hydroptilidae)
Hydroptila sp. B Scraper 1 1
Lepidostomatidae
Lepidostoma hirtum B Shredder 2 2 4 10
DAMSELFLIES (Odonata, Zygoptera)
B Predator
Jewelwings/Demoiselles (Calopterygidae)
Banded jewelwing Agrion splendens
C Filtering collector
4
TRUE FLIES (Diptera)
Blackfly larvae (Simulidae) C Filtering collector
120 25 7 19 78
Chironomidae
Green chironomid C Filtering collector
67 21 5 6 15 50
Chironomous sp. E Filtering collector
10 29 8 3 16 16
Cranefly larvae (Tipulidae) C Shredder
Dicranota sp. C Shredder 3 1 1
BEETLES (Coleoptera)
Riffle beetles (Elmidae)
Elmis sp. (adult) C Predator 5 4 2 2 1 2
Gyrinidae
Gyrinus sp. C Predator 8 5
Diving beetles (Dytiscidae)
Sub family Hydroporinae
Potamonectes depressus elegans
C Predator 15 22 32 16 15 20
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Pollution sensitivity group
Functional group
Site N1
Site N2
Site N3
Site N4
Site N5
Site N6
Habitat Category Riffle Glide Pool Pool Glide Riffle
Sample type receptor
receptor
receptor
reference
reference
reference
Hydrophillidae
Helephorus sp. C Predator 1 2 3 7 5
Haliplidae
Haliplus sp. C Predator 2 8 9 9 3 2
BUGS (Hemiptera)
Corixidae
Sigara dorsalis C Predator 5
Notonectidae (Greater water boatman)
C Predator 1
Gerridae
Gerris sp. C Predator 1 4 9 5 3
ALDERFLIES (Megaloptera)
Alderfly larvae (Sialidae)
Sialis sp. D Predator 1 2 2
3.4 Biological Water Quality The current survey was carried out during July 2012. The summer of 2012 was extremely wet
and water levels in most rivers in the country were above normal during the summer. The river
was examined at a time when water levels were above normal on the 24th July (Sites N1-N4) with
the river in flood when surveyed on the 25th July (Sites N5 and N6). Even with the higher than
normal water levels, excessive algal growth was evident on submerged aquatic vegetation. In
addition, underwater features visible at the time of the survey were seen to have a considerable
coat of deposited silt. These factors are usually associated with unsatisfactory biological water
quality.
The glide sites N2 and N5 had the greatest macroinvertebrate diversity. It is noted that higher
species richness values, linked to family richness are mostly associated with clean water
conditions. The receptor riffle site (N1) had a family richness of 24 compared to a family richness
of 22 at the corresponding reference riffle site (N6). The family richness at the receptor glide (N2)
and the reference glide (N5) was 28 and 27 respectively. Family richness at the pool sites N3
(receptor) and N4 (reference) was 22 and 23 respectively. The mean family richness at the
receptor and reference sites combined was 24.6 and 24 respectively. The results obtained for
family richness do not indicate that the discharge is influencing macroinvertebrate diversity in the
surveyed stretch of the river.
The biotic indices have been derived based on the macroinvertebrate communities found at each
site. The biological water quality evaluations for the six survey sites on the River Nanny are given
in Table 8.
Sites N1, N2 and N5 were rated 'Slightly Polluted (Q3-4)’ using the Q-rating system which is
equivalent to Water Framework Directive (WFD) ‘Moderate’ status. This rating is borderline
however and was brought about by the presence of pollution sensitive mayfly larva and relatively
stable oxygenation conditions. Sites N3, N4 and N6 were rated ‘Moderately Polluted (Q3)’,
equivalent to Water Framework Directive (WFD) ‘Moderate’ status.
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The only pollution sensitive species recorded was mayfly larvae of E. dispar, present at Sites N1,
N2 and N5. Group B cased caddisfly larvae were recorded at all survey locations. A family
diversity of 24 was recorded at the riffle receptor site in comparison to a family diversity of 22 at
the reference riffle site. Macroinvertebrate richness is related to water quality and since richness
was greater at the receptor site, it is considered that the discharge is not noticeably impacting on
macroinvertebrates. The riffled locations are probably the best sites on which to make an
assessment of biological water quality as these areas, owing to fast flowing water and better
habitat are most likely to support pollution sensitive indicators. Since the 2011 study, there has
been a general improvement in Q-ratings, the ecological status of Sites N1, N2 and N4 improving
from 'poor' status in 2011 to 'moderate' status in the current study.
The overall classification of macroinvertebrate species present at the receptor and reference sites
in terms of their pollution sensitivity is given in Figure 3 and Table 9. Group ‘C’ pollution tolerant
indicators comprise the bulk of the macroinvertebrate communities downstream (69% collectively
at receptor sites) and upstream (72% collectively at reference sites) of the discharge point. The
relative abundance of Group C indicators closely correspond to 2011 results. Comparing the
receptor and reference sites examined in 2012, there is also close correspondence between
pollution sensitivity Group ‘A’ (1%, 0.1%), Group ‘B’ (8%, 4%), Group ‘D’ (16%, 16%) and Group
‘E’ (6%, 8%) where percentages in parenthesis are for receptor and reference sites
correspondingly. Again, these results closely reflect the 2011 results.
Comparing Site N1 and Site N6, it can be seen that there is little difference in the relative
abundance of Group C indicators, N1 and N6 containing 90% and 84% pollution tolerant taxa
respectively. Group B (less sensitive) indicators accounted for only 2% of the assemblage at Site
N1 in contrast to 4% at Site N6. Very tolerant indicators (Group D) accounted for 6% of
macroinvertebrates at Site N1 and 9% at Site N6.
Similarly, there was little variation in the macroinvertebrate compositions at corresponding glide
sites in terms of pollution sensitivity groups. The amount of Group C indicators at Sites N2 and
N5 was 71% and 68% respectively. Group B indicators accounted for 3% of the assemblage at
N2 downstream of the discharge and 6% at N5 upstream. A significant proportion of the
macroinvertebrates at these locations consisted of most tolerant (Group E) indicators; 9% at Site
N2 and 6% at Site N5. The proportion of this indicator group decreased by approximately 50%
since 2011 however. There was little difference in the relative abundance of Group D indicators
at Sites N2 and N5, these very tolerant indicators accounting for 17% and 20% of the
macroinvertebrates assemblage at these locations, in that order.
The macroinvertebrate assemblages at Sites N3 and N4 comprised 78% and 91% Group C
indicators, 15% and 6% group D indicators, and 3% and 2% Group B indicators respectively, with
no pollution sensitive species recorded.
Figure 4 illustrates the Biological Monitoring Working Party (BMWP), Trent biotic index and
Chandler biotic index scores at the six survey sites. All BMWP scores were greater than 100
which is inductive of very good water quality. BMWP scores are proportional to family diversity. It
is noted however that macroinvertebrate assemblages in lowland limestone rivers area usually
highs sometimes even in polluted circumstances however. Indeed, other observations along he
surveyed stretch of the river did not correspond with unpolluted conditions however e.g.
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filamentous algal growth and siltation. The highest BMWP score was for Site N5 – the glide site
upstream of the discharge. This site scored 136.7 which is interpreted as very good or unpolluted.
The corresponding BMWP score downstream of the discharge (N5) was 123.5. BMWP scores at
the riffled sites N1 and N6 were 125.5 and 104.1 correspondingly. It is noted that the BMWP
scores at Sites N2 and N3 increased from values indicative of 'Moderately impacted' conditions in
2011. The Average Score Per Taxon (ASPT) which is a function of the BMWP score is deemed to
more accurately gauge water quality. The ASPT at Site N1 and N5 was 5.5, where an ASPT of
more than 5.5 is thought to reflect good water quality. Overall, analyzing the BMWP scores over
the study area does not point to a decrease in water quality at Sites N1, N2 and N3 with
reference to Sites N4, N5 and N6. The Trent biotic index scores for all survey sites was 9. Again,
as for the BMWP index, there was no determinable decline in water quality downstream of the
discharge point. There was very little difference in Chandler scores across the suite of sites
surveyed. Chandler average values varied from 42.6 at Site N4 to 47.7 at Site N5. The ideal
Chandler index value of 80 or more indicates an unpolluted, fast-running and well-aerated
watercourse. The Chandler scores during the current assessment fall well short of 80, due to the
absence of entire groups of pollution sensitive taxa such as stonefly and mayfly larvae. The
Chandler scores obtained in the current study were broadly similar to scores obtained in the 2011
study. Again, the Chandler scores do not indicate degradation in biological water quality
downstream of the discharge point.
There was no discernible difference in water quality between the sites upstream and downstream
of the Irish Cement discharge. Overall, the results confirm that biological water quality in the River
Nanny is the same upstream and downstream of the Irish Cement discharge. The general trend
was that the reference glide (N5) and receptor glide (N2) scored higher than other sites due to
greater family diversity.
Table 8 Biological water quality at the six survey sites on the River Nanny during August 2012.
Site and habitat category
Site N1 Site N2 Site N3 Site N4 Site N5 Site N6
Riffle Glide Pool Pool Glide Riffle
Site type Receptor Receptor Receptor Reference Reference Reference
Total number of Individuals (N)
494 315 196 260 260 458
Number of Families
24 28 22 23 27 22
Q-Value Q3-4 Q3-4 Q3 Q3 Q3-4 Q3
Q-Value description
Slightly Polluted
Slightly Polluted
Moderately Polluted
Moderately Polluted
Slightly Polluted
Moderately Polluted
WFD status poor poor poor poor poor poor
BMWP score 125.5 123.5 112 101.2 136.7 104.1
BMWP category Very good Very good Very good Very good Very good Very good
BMWP interpretation
Unpolluted Unpolluted Unpolluted Unpolluted Unpolluted Unpolluted
ASPT 5.5 4.9 5.3 4.6 5.5 5.0
Trent Biotic Index
9 9 9 9 9 9
Trent taxonomic groups
26 30 25 28 32 30
Chandler score 1171 1400 1128 1065 1382 1103
Chandler Biotic Index (average value)
45.0 46.7 45.1 42.6 47.7 44.1
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Table 9 Classification of macroinvertebrate species recorded at each site in terms of their pollution sensitivity (EPA methods).
Site Abundance Pollution indicator group
Group A (Most sensitive)
Group B (Less Sensitive)
Group C (Tolerant)
Group D (Very Tolerant)
Group E (Most Tolerant)
Total
N1
Number 1 8 443 32 10 494
% of total 0 2 90 6 2 100
N2
Number 1 8 224 53 29 315
% of total 0 3 71 17 9 100
N3
Number 0 6 152 30 8 196
% of total 0 3 78 15 4 100
N4
Number 0 5 236 16 3 260
% of total 0 2 91 6 1 100
N5
Number 2 15 176 51 16 260
% of total 1 6 68 20 6 100
N6
Number 0 19 384 39 16 458
% of total 0 4 84 9 3 100
Compared to 2011, there has been an overall improvement in biological water quality in the
surveyed stretch of river i.e. both upstream and downstream of the discharge location, water
quality in the river returning to that recorded in 2010. The unusually consistently higher than
normal water levels may have lead to this overall improvement in biological water quality since
last year. Based on the relative abundance of macroinvertebrate and biotic indices, it is
considered that the River Nanny is under ecological pressure; the only pollution sensitive
indicator (E. dispar) being present, and low relative abundance of Group B indicators. As
observed from year to year in previous surveys, the macroinvertebrate community in the
surveyed stretch of river is variable, indicating ecological instability brought about apparently by
pressures in the catchment.
3.5 Functional Groups The collective compositions of macroinvertebrate Functional Feeding Groups (FFG) at the
receptor sites and reference sites is presented in Figure 5. The dominant FFG at the receptor
sites was filtering collectors, macroinvertebrates that specialise in filtering. Filtering collectors
accounted for 31% of the assemblage at Sites N1, N2 and N3 combined. The proportion of
filtering collectors at the reference sites (N3, N4 and N5) was 24%. Shredders comprised 28%
and 37% of the macroinvertebrate assemblage at reference and receptor sites, in that order.
There was little difference between the abundance of predators with 14% predators at the
receptor and 12% predators at the reference sites. Gathering collectors represented 22% and
25% of macroinvertebrates recorded at receptor and reference sites in that order. Similarly, there
was close correspondence between the relative abundance of scrapers; 5% and 4% at the
receptor and reference sites respectively.
In comparison to FFG results for 2011, the most significant change has been the decrease in the
relative abundance of predators. The fraction of this FFG decreased from 21% to 14% at receptor
sites and from 16% to 12% at reference sites between 2011 and 2012. This trend follows that
seen last year where predator abundance also declined between 2010 and 2011. Another
noticeable decrease was observed in scrapers. This FFG formed 13% of macroinvertebrates
recorded at reference sites in 2011 in contrast to only 5% in the current study. The drop in relative
abundance of scrapers at reference sites was smaller, being 6% in 2011 and 4% in 2012.
Conversely, the relative abundance of gathering collectors recorded in the current study has
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increased since 2011 with the relative quantity of filtering collectors stable since 2011. The
decrease in scrapers and increase in gathering collectors could be attributed to the unusually wet
summer conditions in advance of the current survey work. Turbid water or water carrying a heavy
suspended solids load reduces light penetration and hence primary instream production upon
which scrapers depend. Thereby, a decrease in primary production such as reduced diatom
abundance would be expected to decrease the numbers of scrapers. Increased fine particulate
organic matter washed into the river during rainfall events would support collectors and the
relative abundance of this group would be expected to increase as observed in the current study.
More detail on the macroinvertebrate functional groups recorded at each site is provided in Table
10. The dominant FFG for each site along with the P/R ratio for each site is provided in Table 11.
The most frequently occurring shredders were Gammarus deubeni, Asellus aquaticus and
Bithynia tentaculata with cased larvae of caddisfly also present. G. deubeni was the most
abundant macroinvertebrate recorded at the riffled sites N1 and N6 while B. tentaculata and A.
aquaticus were more abundant in the slower flowing parts of the river (N2-N5). The relative
abundance of shredders was broadly comparable at corresponding receptor and reference sites.
At the riffled sites for example, there was 23% shredders at N1 and 26% shredders at N6. At the
glide sites, shredders comprised 33% and 38% of the assemblage at the receptor and reference
sites in that order.
Comparing the percentages of predators at the receptor sites and corresponding reference sites,
there was little difference: 6% at N1 and 7% at N6; 16% at N2 and 13% at N5. The dominant
predators were the beetles Potamonectes depressus elegans and Haliplus sp. with the leeches
Glossiphonia complanata, Erpobdella octoculata and Piscicola geometra also recorded.
The P/R ratio at all sites was considered very low as in previous surveys. This ratio, which is a
measure of gross primary production to community respiration is reduced by increasing numbers
of shredders and collectors. The most common scrapers recorded were Ancylus fluviatilis and
mayfly larvae of Baetis rhodani.
The P/R ratios at all sites are well below the threshold value of 0.75, above which an aquatic
ecosystem is deemed autotrophic. The results of the current survey are indicative of a highly
heterotrophic aquatic system (food supply originates from outside the aquatic system). The
relative abundances of scrapers (which increase P/R ratio) was greatest at Sites N1 (P/R=0.08)
and N6 (P/R=0.07). The P/R ratio at glide sites (N2 and N5) was equal at 0.05. Similarly, the P/R
ratios at the pool sites were the same at 0.02. The drop in P/R from riffle to glide to pool
correlates to depth to riverbed where most macroinvertebrates are found, the P/R decreasing with
increasing depth (most likely due to photosynthetic reasons outlined above).
All P/R ratios with the exception of Site N6 have dropped since 2011. Since 2011, the P/R ratio at
Sites N1 and N4 have undergone the most marked change. The P/R at the riffled receptor site
(N6) has decreased from 0.24 in 2011 to 0.08 and the reference pool site (N4) decreased from
0.23 in 2011 to 0.02 in the current study. The poor representation of scrapers throughout the
surveyed stretch of river is consistent year after year. The changes in relative abundance of this
FFG in successive surveys are slight and in the current situation, significant changes in P/R will
not occur considering the scarcity of this FFG.
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With respect to the 2011 survey, the only site where the dominant FFG has changes is at Site N3,
where shredders were dominant in 2011 and have been replaced by predators. Since 2011, sites
are collectively more heterotrophic than last year. In the current survey, there was no difference
between reference and receptor sites with regard to P/R ratios. This result does not indicate a
change in primary production taking place within the River Nanny downstream of the Irish
Cement discharge.
Table 12 presents a juvenile salmonid (salmon and trout) food index which assesses the
likelihood of a predictable invertebrate food supply being available for juvenile salmonids. The
results show that there was a predictable supply of food available at all sites with the exception of
Site N4. This result was brought about by the generally high proportion of gathering collectors
(mainly E. ignita, Simulidae and green chironomids). Since 2011, there has been a general
increase in the relative abundance of behavioural drifters (filtering and gathering collectors)
throughout the study area, with the effect of raising the juvenile salmonid food index and the
increasing the ability of the river to support young salmonids with respect to macroinvertebrates.
Overall, the poor supporting habitats, degraded water quality and limited food supply for
salmonids along the study stretch of river have significant consequences for the fishery status of
the River Nanny.
Flounder, brown trout, stone loach and minnow were recorded during the current field work
downstream of the discharge point with the three latter species recorded upstream of same.
European eel Anguilla anguilla was not recorded in the previous or the current study. European
eel has been listed as ‘Critically endangered’ and is now ‘Red Listed’ according to ‘Red List No. 5:
Amphibians, Reptiles & Freshwater Fish’ (King et al., 2011).
Table 10 Functional Group Analyses of macroinvertebrate species recorded at each site.
Site Abundance
Functional Feeding Group (FFG)
Filtering collector
Gathering collector
Scraper Predator Shredder Total
N1 number 204 116 33 29 112 494
% of total 41 23 7 6 23 100
N2 number 85 65 12 49 104 315
% of total 27 21 4 16 33 100
N3 number 27 39 3 65 62 196
% of total 14 20 2 33 32 100
N4 number 17 49 5 50 139 260
% of total 7 19 2 19 53 100
N5 number 59 57 10 35 99 260
% of total 23 22 4 13 38 100
N6 number 155 123 29 32 120 458
% of total 34 27 6 7 26 100
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Table 11 Functional Group characteristics of the six survey sites. Dominant FFG (%) (Dominant group and its mean relative %); P/R (ratio of Grazers to total collectors + shredders, a surrogate for ratio of gross primary production to community respiration); Heterotrophy vs Autotrophy based on a P/R threshold of > 0.75 = autotrophic) (Rabenil et al, 2005). Site Type Location Dominant FFG (%) P/R Heterotrophy Vs
Autotrophy
N1 Riffle Receptor Filtering collector (41%) 0.08 Heterotrophic
N2 Glide Receptor Shredder (33%) 0.05 Heterotrophic
N3 Pool Receptor Predator (33%) 0.02 Heterotrophic
N4 Pool Reference Shredder (53%) 0.02 Heterotrophic
N5 Glide Reference Shredder (38%) 0.05 Heterotrophic
N6 Riffle Reference Shredder (34%) 0.07 Heterotrophic
Table 12 Juvenile salmonid food index. Predictable invertebrate supply is the ratio of behavioral drifters (filtering and gathering collectors) to accidental drifters (scrapers, shredders and predators). Based on a threshold of >0.50 for predictable supply (Rabenil et al, 2005). Site Type Location Behavioral drifters/accidental
drifters Predictable Vs Unpredictable
N1 Riffle Receptor 1.84 Predictable
N2 Glide Receptor 0.91 Predictable N3 Pool Receptor 0.51 Predictable N4 Pool Reference 0.34 Unpredictable N5 Glide Reference 0.81 Predictable N6 Riffle Reference 1.54 Predictable
24 28 22 23 27 22
494
315
196
260 260
458
0
100
200
300
400
500
600
Receptor (riffle)
Receptor (glide)
Receptor (pool)
Reference (pool)
Reference (glide)
Reference (riffle)
Number of individuals (N)
Number of families (N)
Figure 2 Macroinvertebrate diversity and abundance at each of the six sampling sites.
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Group A1%
Group B8%
Group C69%
Group D16%
Group E6%
Receptor Sites (N=1005)
Group A0.1%
Group B4%
Group C72%
Group D16%
Group E8%
Reference Sites (N=978)
Figure 3 Overall classification of macroinvertebrate species present in terms of their pollution sensitivity (EPA methods). Based on numbers of groups present at the reference and receptor sites.
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125.5 123.5112
101.2
136.7
104.1
0
20
40
60
80
100
120
140
160
Receptor (riffle)
Receptor (glide)
Receptor (pool)
Control (pool)
Control (glide)
Control (riffle)
BMWP Scores
45
46.7
45.1
42.6
47.7
44.1
40
41
42
43
44
45
46
47
48
49
Receptor (riffle)
Receptor (glide)
Receptor (pool)
Control (pool)
Control (glide)
Control (riffle)
Chandler index scores
9 9 9 9 9 9
0
1
2
3
4
5
6
7
8
9
10
Receptor (riffle)
Receptor (glide)
Receptor (pool)
Control (pool)
Control (glide)
Control (riffle)
Trent index scores
Figure 4 Variation of the BMWP Score, Trent Biotic Index and Chandler Biotic Index at the six survey sites.
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Filtering collector31%
Gathering collector
22%
Scraper5%
Predator14%
Shredder28%
Receptor Sites (N=1005)
Filtering collector24%
Gathering collector
23%
Scraper4%
Predator12%
Shredder37%
Reference Sites (N=978)
Figure 5 Overall Functional Group Analyses of macroinvertebrates collected from receptor and reference sites sampled on the River Nanny during July 2011.
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3.6 Toxicology The results of the toxicology tests as carried out by SATL are outlined in Tables 13 and 14 below.
No Daphnia magna were immobilised after 48 hours exposure to 100% vol./vol of the discharge
from the Irish Cement plant. This result signifies that the discharge was non-toxic to this indicator
i.e. a toxic unit value of <1. The effluent is therefore considered non-toxic with respect to this
trophic level.
The 30 minute EC50 to Vibrio fischeri found that no light inhibition occurred at 45% vol./vol. In
relation to this organism, the Toxic Unit value was <2.2 which again indicates that the effluent was
non-toxic to this test organism.
The toxicity testing showed that the effluent from the Irish Cement plant was less than 2.2 T.U. for
both Daphnia magna, a freshwater crustacean and the marine bacterium Vibrio fischeri. It is noted
that a toxic unit value of <3 is described as non-toxic. These results indicate that the discharge
from the Irish Cement Plant is non-toxic to two trophic levels. It is considered therefore that the
discharge from the Irish Cement plant to the River Nanny does not adversely affect the ecology of
River Nanny with respect to toxicity. In the way that lower trophic organisms are not affected by
the discharge, it is considered also that the discharge does not adversely affect fauna higher in
the food chain, such as macroinvertebrates recorded while biological sampling and fish supported
by these.
The dilution provided by the River Nanny would be expected to reduce any negative impacts, if
any of the discharge. According to Chapman (1995), different views in the form of tools such as
toxicity tests and field studies, together provide the best overall perspective. With regard to this
approach, it is also deduced from the macroinvertebrate field sampling that the discharge is Non-
Toxic.
Table 13 Chemical analysis information for the water sample on which the toxicology test was carried out i.e. the discharge from the Irish Cement plant.
Parameter and units Results
Temperature (0C) 18.5
pH (at 18.40C) 7.4
Dissolved Oxygen (% saturation) 100
Dissolved Oxygen (mg/l) 9.3
Conductivity (US/cm at 250C) 658
Salinity (ppt at 200C) <1
Table 14 Toxicological test results of the Irish Cement plant discharge.
Test parameter Concentration %vol./vol.
Toxic units
95% confidence limits %vol./vol.
Method of calculation
48 h EC50 to Daphnia magna >100 <1 n/a n/a
30 min EC50 to Vibrio fischeri >45 <2.2 n/a n/a
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SUMMARY AND CONCLUSIONS
The macroinvertebrate community and sediments at six sites located within 500m
upstream and downstream of the Irish Cement trade discharge outflow were investigated
during July 2012. These sites selected were at the same locations as in previous surveys
undertaken from 2008 to 2011.
The entire River Nanny was in an unsatisfactory ecological condition when most recently
monitored by the EPA in August 2010. The current river status of all watercourses in the
Nanny catchment are either 'Poor' or 'Moderate'. The problems in the River Nanny are
High Nutrient Concentration (Phosphorus, Ammonia, issues with level of oxygen in water
and Low Ecological Rating. The cause of these pressures have been identified as
agriculture, wastewater and industrial discharges and septic tanks. Pressures in the
Nanny are emphasised due to poorly drained soil leading to greater runoff (ERDB, 2010).
There was no distinct trend to imply that the Irish Cement trade effluent was impacting on
the substrate composition in the River Nanny, in particular smaller sized materials.
Substrates at all sites were found to be dominated by sands. The primary concern with
respect to the Irish Cement trade effluent is fine particles such as fine sands and silt/clay.
There is no evidence that the proportion of these finer particles is elevated downstream of
the discharge point. Indeed, there was a greater amount of silt/clay from the sample taken
nearest upstream of the discharge than in nearest sample taken downstream of same.
This is just an indication of normal sediment composition variation along the river, and
background hydrogeomorphological processes. Underwater observations of the river
coincided with the sediment results, where a considerable coat of silt was noted in the
river both upstream and downstream of the discharge point. The visual quality (clarity) of
trade effluent from the Irish Cement was seen be much greater than the River Nanny on
both days of the current survey. It is concluded that the trade effluent from the Irish
Cement Plant is not impacting on the composition of the substrate in the river.
The diversity and abundance levels of macroinvertebrates recorded at all sites were
considered to be typical of an organically polluted lowland Irish river. The
macroinvertebrate fauna was dominated by pollution tolerant organisms such as Asellus
aquaticus, green chironomid larvae and Chironomous sp. There has been a decrease in
family richness at the riffled reference site since 2011. Cased caddisfly larvae of
Limnephilus flavicornis, Athripsodes cinereus, Agapetus fuscipes and Phryganea
bipunctata were not recorded in the 2011 survey or in the current survey and damselfly
larvae has decreased in relative abundance since 2011.
Water pollution in the River Nanny continues to be problem with algal growths and
siltation obvious all along the surveyed stretch of the river. In 2011, the status of the river
was also found to be moderate, corresponding with EPA results. Since 2011, there
appears to have been a slight improvement in biological water quality, with the rating of
some sites rising to Q3-4. This improved rating is borderline however and was brought
about by the presence of a pollution sensitive mayfly larva at some locations, less
abundant macrophye growth than the previous year and relatively stable oxygenation
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conditions. The higher than normal water levels that persisted throughout the summer are
thought to have influenced Q-ratings and other biotic indices.
The BMWP scores at riffled locations continue to be higher than expected, these scores
governed by family richness. In the current survey, there was an overall increase in
family richness compared to 2011 with the effect that all BMWP scores were greater than
100 (indicative of very good water quality). Using BMWP scores, there was no indication
that the trade effluent discharge was impacting biological water quality, the average
BMWP downstream of the discharge being 120 and 114 upstream. ASPT scores are
considered more robust and unambiguous than BMWP scores. ASPT scores throughout
the study area showed little variation but none were greater than 5.5 (scores equal to or
above reflective of good water quality). Chandler biotic index values at all sites were well
below the score of 80 (representative of unpolluted sites). The mean Chandler scores at
receptor sites and reference sites was 45.6 and 44.8 respectively. Trent biotic index
scores at all locations was 9. Based on family diversity, BMWP, Trent and Chandler
scores, there is no evidence to indicate that biological water quality is adversely affected
downstream of the Irish Cement trade effluent discharge point. Since 2011 there has
been an overall increase in BMWP scores. The highest score in the 2011 survey was at
Site N1 (124.5) compared to 136.7 Site N5 in the current survey.
The macroinvertebrate communities at receptor sites were collectively dominated by
filtering collectors while shredding macroinvertebrates were the most common functional
feeding group at the reference sites. Shredders specialise in the consumption of organic
matter deriving from inputs such as leaves. Changes in functional groups reflect changes
in food sources, nutrient processing and energy flow in the river system. The increase in
the relative abundance of shredders and the decrease in the relative abundance of
scrapers from 2011 signifies a shift away from primary instream production. This could
have been caused by the prolonged rainfall in the months preceding the survey, with
increased runoff from land and high water levels resulting in lower light intensity within the
water column and thereby reducing instream photosynthesis/primary production. The P/R
ratio at all sites examined was very low as in previous surveys. This indicates that the
River Nanny is highly heterotrophic. The scarcity of macroinvertebrate scrapers is a
reflection of unsatisfactory water quality and supporting habitats at all of the sites
investigated. In the current survey, there was no difference between reference and
receptor sites with regard to P/R ratios. This result indicates that there is no discernible
change in primary production taking place within the River Nanny downstream of the Irish
Cement discharge.
The functional group analysis results suggest that there is a ‘Predictable’ juvenile
salmonid food supply at all sites surveyed with the exception of the glide receptor site
(N4). This result was brought about by the generally high proportion of gathering
collectors (mainly E. ignita, Simulidae and green chironomids. Other factors such as water
quality, including siltation does not suit salmonid production in the surveyed stretch of the
river however.
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Toxicology testing was carried out on two different trophic levels using trade effluent from
the Irish Cement plant. Toxicology test results showed that the effluent is non-toxic to the
organisms tested and it is considered that it is also non-toxic to macroinvertebrates in the
River Nanny. In combination with the results of the macroinvertebrate assemblages and
functional group analyses, it is considered that the discharge is not adversely impacting
aquatic ecology within the River Nanny.
The River Nanny is in the Eastern River Basin District. In the Programme of Measures for
the River Nanny Water Management Unit (WMU), the main pressure preventing
achievement of Good Status is diffuse agricultural and septic tank pollution (ERBD, 2009).
In this water management unit, naturally high levels of nutrients in the ground may also be
an issue. Full implementation of the measures is expected to correct this, however
recovery time will mean that larger rivers will not achieve Good Status before 2015. The
WFD recognises that in some cases it may not be possible to achieve all core objectives
by 2015. In cognisance of this, the target date for achievement of 'Good status' in the
River Nanny catchment has been set back to 2027.
The macroinvertebrate community along the surveyed stretch of river changes markedly
from year to year with only pollution tolerant indicators continuing to exist in successive
surveys. This changing state of the river is indicative of background pressures on aquatic
ecology, and not related to the Irish Cement discharge.
The trade effluent from the Irish Cement plant does not appear to be adversely affecting
BOD, hardness, Dissolved Oxygen (D.O.) in the River Nanny, as indicated by water
quality results from samples taken upstream and downstream of the discharge. In fact,
Dissolved Oxygen (D.O.) in the discharge was very close to 100%, the ideal saturation
concentration. Organic compounds and Heavy Metals were not present in the sample of
the discharge at a level considered harmful to the aquatic environment.
The results confirm that macroinvertebrate communities, biological water quality and
sediment levels in the River Nanny are not significantly different upstream and
downstream of the trade effluent from the Irish Cement plant. The discharge is considered
to be having a neutral impact on the aquatic ecology of local areas of the River Nanny.
4 RECOMMENDATIONS Biological monitoring of the River Nanny upstream and downstream of the discharge should be
continued to continue to monitor the impact of the discharge on aquatic ecology. Similarly, the
composition of substrates in the river should be assessed and Irish Cement Ltd. should continue
monitoring chemical water quality upstream and downstream of trade effluent discharge on the
River Nanny.
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REFERENCES Armitage, P. D.; Moss, D.; Wright, J. F. and Furse, M. T. (1983) The performance of a new
biological water quality score system based on macroinvertebrates over a wide range of
unpolluted running-water sites. Water Res., 17 (3), 333-347.
Barbour, M.T. and J.B. Stribling. 1991. Use of Habitat Assessment in Evaluating the Biological
Integrity of Stream Communities. Biological Criteria: Research and Regulation: 25-38.
EPA-440/5-91-005. Washington, DC: Office of Water, US EPA
Bass J.(1998) Last-Instar Larvae and Pupae of the Simuliidae of Britain and Ireland: a Key with
Brief Ecological Notes 1998, 104pp.
Butler G.C. Principles of Ecotoxicology. Chichester, England: J Wiley & Sons, 1978.
Central and Regional Fisheries Boards (2009). Sampling fish for the Water Framework Directive -
Eastern River Basin District Rivers.
Chandler, J.R. (1970) A Biological Approach to water Quality Management. Water Poll. Cont.
69:415-421.
Chapman PM. Do sediment toxicity tests require field validation? Environ Toxicol Chem 14:1451-
1453 (1995).
Cranston P.S. (1982) A Key to the Larvae of the British Orthocladiinae (Chironomidae) 1982,
152pp + 1 plate.
Cronin, M., McGovern, E., McMahon, T and Boelens, R. (2006) Guidelines for the assessment of
Dredge material for disposal in Irish waters. Marine Institute and the Department of
Communications, Marine and Natural Resources.
Disney R.H.L. (1999) British Dixidae (Meniscus Midges) and Thaumaleidae (Trickle Midges):
Keys with Ecological Notes 1999, 128pp.
DOEHLG (2009) European Communities Environmental Objectives (Surface Waters) Regulations
2009. S.I. 272 of 2009.
EA (2003) River Habitat Survey in Britain and Ireland: Field Survey Guidance Manual. River
Habitat Survey Manual: 2003 version, Environment Agency, 136 pp
ERBD (2009) Nanny Water Management Unit - Final Programme of Measures. Document
Reference: 39325/ERBD40/DG134 – S.
Ecofact (2008) Aquatic Monitoring of the River Nanny near Duleek, Co. Meath. Prepared on
behalf of Irish Cement Ltd.
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Ecofact (2009) Aquatic Monitoring of the River Nanny near Duleek, Co. Meath. Prepared on
behalf of Irish Cement Ltd.
Ecofact (2010) Aquatic Monitoring of the River Nanny near Duleek, Co. Meath. Prepared on
behalf of Irish Cement Ltd.
Ecofact (2011) Aquatic Monitoring of the River Nanny near Duleek, Co. Meath. Prepared on
behalf of Irish Cement Ltd.
Edington J.M. & A.G. Hildrew (1995) A Revised Key to the Caseless Caddis Larvae of the British
Isles, with Notes on their Ecology 1995, 134pp.
Elliott J.M. & K.H. Mann (1979) A Key to the British Freshwater Leeches, with Notes on their Life
Cycles and Ecology. 1979 (reprinted 1998), 72pp.
Elliott J.M. & U.H. Humpesch (1988) A Key to the Larvae of the British Ephemeroptera, with
Notes on their Ecology1983, 101pp + 1 plate.
Gledhill, T., D.W. Sutcliffe & W.D. Williams (1993) British Freshwater Crustacea Malacostraca: a
Key with Ecological Notes 1993, 176pp.
Hynes H.B.N. (1977) A Key to the Adults and Nymphs of the British Stoneflies (Plecoptera), with
Notes on their Ecology and Distribution. Third edition, 1977 (reprinted 1993), 92pp.
King, J.L., Marnell, F., Kingston, N., Rosell, R., Boylan, P., Caffrey, J.M., FitzPatrick, Ú., Gargan,
P.G., Kelly, F.L., O’Grady, M.F., Poole, R., Roche, W.K. & Cassidy, D. (2011) Ireland
Red List No. 5: Amphibians, Reptiles & Freshwater Fish. National Parks and Wildlife
Service, Department of Arts, Heritage and the Gaeltacht, Dublin, Ireland.
McGarrigle, M.L., Bowman, J.J., Clabby, K.J., Lucy, P., Cunningham, M., MacCarthaigh, M.,
Keegan, M., Cantrell, B., Lehane, M., Clenaghan, C., Toner, P.F. (2002) Water Quality
in Ireland 1998-2000. Second (Revised) Edition. Environmental Protection Agency.
Rabenil, C.F., Doisy, K.E. and Zweig, L.D. (2005) Stream invertebrate community functional
responses to deposited sediment Journal of Aquatic Sciences. 67(4):395-402.
Savage A.A. (1989) Adults of the British Aquatic Hemiptera Heteroptera: a Key with Ecological
Notes1989, 173pp.
Savage A.A. (1999) Keys to the Larvae of British Corixidae1999, 56pp.
Wallace, I.D., B. Wallace & G.N. Philipson (2003) Keys to the Case-bearing Caddis Larvae of
Britain and Ireland 2003, 259pp.
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Walley W.J. and Hawkes H.A. (1997) A computer-based development of the Biological
Monitoring Working Party score system incorporating abundance rating, biotope type
and indicator value. Water Research, 31 (2), 201-210.
Woodiwiss, F. (1960) Trent Biotic Index of Pollution. Second Quinquennial Abstract of Statistics
Relating to the Trent Watershed. Trent River Authority. England.
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PLATES
Sampling sites
Plate 1 Site N1: receptor riffle site downstream of the weir (NOS grid ref O07976 69254).
Plate 2 Site N2: receptor pool site downstream of the outfall (NOS grid ref O07865 69186).
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Plate 3 Site N3: receptor glide site (NOS grid ref O07783 69171).
Plate 4 Site N4: reference pool site (NOS grid ref O07589 69186).
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Plate 5 Site N5: reference glide site (NOS grid ref O07537 69165)
Plate 6 Biological sampling at the reference riffle site located immediately downstream of the minor road bridge to Bellewstown (NOS grid ref O07349 69166). The river was in flood on the 25
th
July.
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Plate 7 Biological sampling at Site N1 in the River Nanny on 24
th July 2012.
Plate 8 Biological sampling at each site included sweep netting through submerged aquatic vegetation. Seen above is Site N2.
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Plate 9 Measuring conductivity in the trade effluent discharge upstream of the River Nanny.
Plate 10 Core sample of soft substrate being taken in the River Nanny at Site N1.
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Biological results
Plate 11 Algal growth (Cladophora sp.) in the River Nanny at Site N1. The substrate was seen to be heavily silted both upstream and downstream of the discharge point. Such conditions impact on macroinvertebrate and salmonid habitats.
Plate 12 Underwater view of a submerged leaf at Site N5. This plant had a cover of silt throughout the water column - near the surface and at benthic level.
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Plate 13 Underwater view of River Nanny at Site N4 showing excessive filamentous algal growth embedded with silt. Such conditions are indicative of a moderately polluted river, but this is due to background pressures and not the Irish Cement discharge. .
Plate 14 The snail Bithynia tentaculata is classified by the EPA as a pollution tolerant (submerged aquatic C) species. This organism is a shredder which feeds on particles such as leaves, stems and branches.
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Plate 15 Larvae of the pollution sensitive mayfly Ecdyonurus dispar was recorded at sites N1, N4 and N5. Pollution sensitive mayfly larvae of Baetis rhodani (centre) and Ephemerella ignita (right) were recorded at all locations.
Plate 16 The bud Gerris sp. was the most frequently recorded Hemipteran during the current study.
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Plate 17 The beetle Haliplus sp, a predator was recorded at all survey sites.
Plate 18 Fish species recorded during the current study included those in the photograph above as well as minnow Phoxinus phoxinus. Above are flounder Platichthys flesus (top), three-spined stickleback Gasterosteus aculeatus (left), brown trout Salmo trutta (centre right) and stone loach Barbatula barbatula (below right).
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Eco-toxicology
Plate 19 Daphnia magna 48 h EC50 test apparatus.
Plate 20 Temperature controlled photometer apparatus used to test for bioluminescence of Vibrio fischeri in the 30 min EC50 test.
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Appendix 1 Biotic Indices.
Table A1.1 Biological River Quality Classification (Q-Values). ‘Q’ value Community
Diversity Water Quality
Condition* Status Quality
Q5 High Good Satisfactory Unpolluted Class A
Q4 Reduced Fair Satisfactory Unpolluted Class A
Q3 Much Reduced Doubtful Unsatisfactory Slightly Polluted Class B
Q2 Low Poor Unsatisfactory Moderately Polluted Class C
Q1 Very Low Bad Unsatisfactory Seriously Polluted Class D
* ‘Condition’ refers to the likelihood of interference with beneficial or potential beneficial use.
The connection between the Q-rating system and the European Communities Environmental Objectives (Surface Waters) Regulations 2009 (S.I. 272 of 2009) is given in Table 1 below.
Table A1.2 Water Framework Directive (WFD) ecological status classification and corresponding Q-rating. Ecological status classification Corresponding Q-rating
High Q5, Q4-5
Good Q4
Moderate Q3-4
Poor Q3, Q2-3
Bad Q2, Q1
Table A1.3 BMWP Scoring System. BMWP score Category Interpretation
0-10 Very poor Heavily polluted
11-40 Poor Polluted or impacted
41-70 Moderate Moderately impacted
71-100 Good Clean but slightly impacted
>100 Very good Unpolluted, unimpacted
Table A1.4 Trent Biotic Index. Trent Index BOD (mg/l) Status
9-10 2 Very Clean
7-10 2-3 Clean
6-8 2-3 Clean
5-6 3-5 Fairly Clean
3-5 5-10 Doubtful
2-4 5-10 Doubtful
1-3 10+ Bad
0-1 10+ Bad
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Appendix 2 EPA Water Quality Data for the River Nanny.
Table A2.1 Water quality in the River Nanny along with overall water quality in hydrometric area 8 (adapted from Clabby et al. 2008). Catchment Class A Class B Class C Class D Total (km)
Hydrometric Area 8 (km)
22.5 23 70 6.5 122
Hydrometric Area 8 (%)
18.4 18.9 57.4 5.3 100
Nanny (km) 6.5 12 9.5 - 28
Nanny (%) 23.2 42.9 33.9 - 100
Table A2.2 Biological Water Quality in the River Nanny (EPA Code 08N01). Data taken from the EPA website.
Station No.
Station location
Biological water quality ratings (Q-value)
1980
1982
1986
1988
1991
1996
1998
2001
2005
2008
2010
0040 Folistown Br - - - - - 2-3 2-3 2 2-3 3 3
0090 East Bridge, S. of Brownstown
- - - 2-3 2-3 - - - - - -
0100 West Br Kentstown
- - - - - - - - - - -
0110 East Bridge, Kentstown
- - - 3 3 3 2-3 2-3 2-3 2-3 3
0200 Br just S. of Balrath X-Roads
3-4 2-3 3 3-4 3-4 - - - - - -
0280 Bridge d/s Nanny Bridge
- - - 3 3 3 3-4 3-4 4 4 3-4
0300 Bridge near Deenes
3 1-2 2 - 3 - - - - - -
0400 Upstream Bridge, Duleek
3-4 4 3-4 2-3 3 - - - - - -
0500 Bridge N.E. of Bellewstown Ho
3 3-4 3-4 3 3-4 3 3-4 3-4 3-4 3 3-4
0600 Beaumont Bridge
3-4 3 3-4 3 - - - - - - -
0650 Dardistown Bridge
- - 3-4 3-4 3-4 4 4 3 - - -
0700 Bridge at Julianstown
3 3-4 3-4 3-4 3 3-4 3-4 3 3-4 3-4 3
2010 EPA Assessment of the River Nanny: Following indications of a slight deterioration at Station 0280, water quality was nowhere satisfactory in the Nanny in 2010. Ecological status was Poor in the upper (0040, 0110) and lower (0700) reaches and elsewhere (0280, 0500) Moderate.
River Nanny Aquatic Monitoring Report 2012 __________________________________________________________________________
___________________________________________________________________________ www.ecofact.ie 48
Appendix 3 Test Reports for the discharge
Table A3.1 Total Petroleum Hydrocarbon results from the sample taken of the Irish Cement discharge on 25
th July 2011.
Total Petroleum Hydrocarbons Units Results Method
>C6-C40 mg/l <0.001 GC-FID >C6-C8 mg/l <0.001 GC-FID >C8-C10 mg/l <0.001 GC-FID >C10-C12 mg/l <0.001 GC-FID >C12-C16 mg/l <0.001 GC-FID >C16-C21 mg/l <0.001 GC-FID >C21-C40 mg/l <0.001 GC-FID Petroleum Range Organics mg/l <0.001 GC-FID Diesel Range Organics mg/l <0.001 GC-FID Mineral Oils mg/l <0.01 GC-FID
Total VOC's mg/l <0.001 GC-MS
Table A3.2 Heavy Metal results from the sample taken of the Irish Cement discharge on 25
th July
2011. Heavy Metal Units Results Method
Arsenic µg/l <1 APHA-3120-B
Copper µg/l <1 APHA-3120-B
Chromium µg/l <1 APHA-3120-B
Lead µg/l <1 APHA-3120-B
Cadmium µg/l <1 APHA-3120-B
Nickel µg/l <1 APHA-3120-B
Mercury µg/l <0.2 APHA-3120-B
Zinc µg/l 12 APHA-3120-B
Tin µg/l <1 APHA-3120-B
Selenium µg/l <1 APHA-3120-B
Table A3.3 BOD (Biochemical Oxygen Demand) Total Hardness results from Sites N1 and N6 on the River Nanny. Sample taken on 25
th July 2011).
N1 N6
BOD (mg/l) 1 2
Total hardness (mg/l) 320 300
Table A3.4 Chemical results from the sample of the discharge (corresponding to the toxicology sample taken on 25
th July 2101).
Parameter and units Results
Temperature (0C) 18.5
pH (at 18.40C) 7.4
Dissolved Oxygen (% saturation) 100
Dissolved Oxygen (mg/l) 9.3
Conductivity (US/cm at 250C) 658
Salinity (ppt at 200C) <1
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
7. Energy Efficiency Audit Report Summary
Irish Cement Ltd Platin Facility Energy Efficiency Audit Energy Efficiency Audit Summary Report
228360-00
Issue 1 | 21 January 2013
This report takes into account the particular instructions and requirements of our client.
It is not intended for and should not be relied upon by any third party and no responsibility is undertaken to any third party. Job number 228360-00 Ove Arup & Partners Ireland Arup 50 Ringsend Road Dublin 4 Ireland www.arup.com
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Contents ‘Page
1 Executive Summary 2
2 Introduction 3
3 Consumption of the Different Energy Streams 4
3.1 Site Energy Consumption Analysis 4
4 Final Audit Recommendations 4
5 Overview of the Existing Energy Management System 8
5.1 Energy Policy 8 5.2 Organising 8 5.3 Motivation 9 5.4 Information System 9 5.5 Marketing 9 5.6 Investment 9
6 Energy Performance Indicators 9
7 Summary of the Implications of the Audit Findings 10
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1 Executive Summary This report includes information on an energy efficiency audit conducted by Arup for Irish Cement Limited (ICL) at their cement production plant in Platin, Co. Meath.
The main findings of the report are as follows:
Kiln 3 which was commissioned in 2008 is a modern high efficiency plant which avails of the latest energy efficient technologies.
SRF (solid recovered fuel) was introduced as a fossil fuel substitute in March 2011. The introduction of SRF as part fossil fuel replacement in Kiln 3 uses material that otherwise would go to landfill.
A review of the overall site power consumption (kWhrs) for the years 2010 and 2011 shows a reduction of 7.5%.
ICL undertake continuous energy efficiency improvements. A register of energy efficiency improvement projects has been developed. Where these projects are found to make financial sense ICL provide funding for their implementation. This register is continually addressed and amended.
Overall site electricity and fuel consumption is tightly controlled. Continual measurement of kWh/tonne clinker and kWh/tonne cement are used to monitor process energy efficiency. Due to the commercially sensitive nature of their data this information could not be included in the report.
It is recommended that a Variable Speed Drive (VSD) is installed on the new 55kW limestone powder blower machine to reduce electricity consumption.
It is recommended to review the Power Factor Correction (PFC) equipment with a view to achieving possible electricity savings. .
It is recommended that a timeclock and a manual override switch are installed in the cement packing building to replace the current manual light switching.
It is recommended that a timeclock and a manual override switch are installed in the garage to replace the current manual light switching. It is also recommended to clean all rooflights in the garage for increased natural daylight.
It is recommended that a feasibility study is carried out as to the viability of using waste heat from Kiln 3.
It is recommended that a feasibility study is carried out as to whether improved controls on the Central Compressed Air plant can be utilised to better match the plant operation with varying process plant demand. It is also recommended that compressors are switched off during the weekend when not in use.
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2 Introduction Arup were appointed by ICL, Platin, to carry out an Energy Efficiency Audit of their cement production plant in Platin, Co. Meath, in line with the Environmental Protection Agency Integrated Pollution Prevention Control (IPPC) requirements under Section G ‘Resource Use and Energy Efficiency’. This report is a summary of the main report for submittal to the Environmental Protection Agency (EPA) as part of the IPPC licence renewal documentation.
Arup visited the site on the 18 December 2012. The visit was facilitated by Seamus Breen, Oliver Farrell, David O’ Brien and Andrew Doyle of ICL.
There are approximately 100 employees in the Platin Plant. Approximately 85 employees were working on the site on 18 December when the site survey was undertaken.
The audit covers the period January to December 2012.
This report includes the following:
Table 1: Consumption of Different Energy Streams at the Site. Table 2: Final List of Audit Recommendations. An overview of the status of the existing energy management system at the
site. Overview of the energy performance indicators calculated for the site. A summary of the implications of audit findings.
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3 Consumption of the Different Energy Streams
3.1 Site Energy Consumption Analysis The Energy performance of the site for 2010 and 2011 is provided in Table 1.
Year 2010 2011 Raw Material Usage (Tonnes) Limestone/Shale/Overburden 1,125,623 1,187,739 Bauxite/Iron Ore/Gypsum 78,072 70,243 Fuel Usage (Tonnes) Pet Coke/Coal 62,714 52,818 Diesel/Light Fuel Oil 1,340 815 Refuse Derived Fuel/Solid Recovered Fuel (SRF)
0 30,499
Electricity Usage (kWhrs) Electricity -7.5% Table 1 Energy Performance of the Site 2010-2011
The use of SRF, which would ordinarily go to landfill, is proving successful, with less reliance on fossil fuel sources.
The raw material usage on site has increased by 4% between 2010 and 2011 with a decrease of 8% in Electricity usage, demonstrating improving energy efficiency on site.
4 Final Audit Recommendations Table 2 on the following pages includes a final list of Audit Recommendations. For each recommendation the table includes a description of the measure, the predicted energy savings, emissions savings and payback period, the target date and the title of the person responsible for the implementation.
Investment Costs are categorised as either no/low cost, medium cost or high cost investments.
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Payback Period
Predicted Annual Energy Savings
Annual CO2
Emmissions Savings
Ref Date Recommendation Investment Cost
Category
(Year) (kWh) (€) (Tonne)
Target Completion
Date
Responsibility Comments
1 11.01.13 Variable Speed Drive (VSD): Install a VSD on the new 55kW limestone powder blower.
Medium See Footnote 1
See Footnote 1
See Footnote 1
See Footnote 1
Year End 2013
ICL Engineering & Operations Department
N/A
2 11.01.13 Power Factor Correction Equipment:
High See Footnote 2
See Footnote 2
See Footnote 2
See Footnote 2
Year End 2013
ICL Engineering & Operations Department
N/A
1 It is estimated that to supply and install a Variable Speed Drive will cost €15,000.00. However it is not possible to calculate an accurate payback period as the actual electrical load for the Raw Mill 3 distribution board is not available due to the commercial sensitivity of this information. Therefore it is not possible to calculate an accurate energy saving cost and payback period if a VSD is installed.
2 It is difficult to estimate what the cost savings will be once the Power Factor Correction System Units are re-viewed. The decision to replace PFCE is based on cost savings by avoiding the low power factor tariffs that may be imposed by the electricity supplier. It is impossible to know what savings can be achieved without the ICL conditions of supply with ESB Networks being available due to the commercial sensitivity of this information.
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Payback Period
Predicted Annual Energy Savings
Annual CO2
Emmissions Savings
Ref Date Recommendation Investment Cost
Category
(Year) (kWh) (€) (Tonne)
Target Completion
Date
Responsibility Comments
3 11.01.13 Cement Packing Lighting: Install a timeclock with a manual override switch in place of the current manual switching system.
Low 0.08 32,987.5 2,968.87 25.59 01.9.13 ICL Engineering & Operations Department
N/A
4 11.01.13 Garage Lighting: Install a timeclock with a manual override switch in place of the current manual switching system. Rooflights in the Garage should be cleaned.
Low 0.32 8,546 769.19 6.62 01.9.13 ICL Engineering & Operations Department
N/A
5 11.01.13 Kiln 3: Carry out a feasibility study as to the viability of using waste kiln heat to drive an on-site turbine for electricity production.
Low N/A N/A N/A N/A 01.9.13 ICL Engineering & Operations Department
N/A
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Payback Period
Predicted Annual Energy Savings
Annual CO2
Emmissions Savings
Ref Date Recommendation Investment Cost
Category
(Year) (kWh) (€) (Tonne)
Target Completion
Date
Responsibility Comments
6 11.01.13 Compressed Air System: Evaluate whether improved controls can be utilised to better match the plant operation with varying process plant demand. Switch compressors off during the weekend when not in use.
Low N/A N/A N/A N/A 01.10.13 ICL Engineering & Operations Department
N/A
Table 2 Final Audit Recommendations
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5 Overview of the Existing Energy Management System
Table 3 below outlines the status of the existing energy management system at the ICL Platin site. The Environmental Protection Agency (EPA) provides guidance on describing the different levels of implementation of an energy management system for an organisation. Based on a discussion with ICL Table 3 below describes the ICL energy management system on site at Platin3.
Energy Policy
Organising Motivation Information Systems
Marketing Investment
Energy policy, action plan and regular review have commitment of top management as part of an environmental strategy.
Energy manager accountable to energy committee representing all users chaired by a member of the managing board.
Formal and informal channels of communication regularly exploited by energy manager and energy staff at all levels.
Comprehensive system sets targets, monitors consumption, identifies faults, quantifies savings and provides budget tracking.
Programme of staff awareness and regular publicity campaigns.
Positive discrimination in favour of “green” schemes with detailed investment appraisal of all new-build and refurbishment opportunities.
Table 3 Status of the Existing Energy Management System at the Site
5.1 Energy Policy ICL implement energy efficiency improvements continually. The Engineering and Operations Department assess possible improvement projects from a technical and financial point of view. A register of energy efficiency improvement projects is developed and funding is provided by management. This is seen as core to achieving cost savings in the business and maintaining competitive advantage.
5.2 Organising A formal energy manager is not present on site. However all management, engineers and operations constantly monitor energy usage via the Key Performance Indicators (KPIs) of €/tonne of Clinker and €/tonne of cement produced. Management hold Engineers and Operations accountable should these KPIs increase above low target levels. These meetings to review the KPIs occur regularly.
3 This table is based on a table included in the EPA Guidance Note on Energy Efficiency Auditing. The EPA document sourced this information from the Energy Audit Templates of Sustainable Energy Ireland’s Pilot Programme on Negotiated Energy Agreements.
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5.3 Motivation From our meeting with the engineers and operations staff there appears to be regular meetings and communication during their daily course of work with a view to minimising energy usage on site.
5.4 Information System The cement production controls system monitors all energy usage and tracks KPIs automatically. Deviations from KPIs are noted as potential ‘faults’ or a need for operations to address. This information feeds into the preventative maintenance regime on site.
5.5 Marketing The ICL web site promotes their energy efficiency:
http://www.irishcement.ie/sustainable-development/
5.6 Investment The investment in energy efficient and green technologies where investment makes commercial sense are pursued continuously.
6 Energy Performance Indicators The process energy usage is tightly controlled. Constant measurement of the key performance indicators (KPIs) are -
€/Tonne of Clinker Produced €/Tonne of Cement Produced
Any process with a KPI below the target KPI is immediately investigated and a preventative maintenance procedure ensures all equipment is serviced to bring the KPIs back within target values.
Due to the commercial sensitivity of these KPIs a breakdown of the energy consumed and KPI records by process could not be included in this report. Benchmark data is not available from other cement production facilities also for the same reason so a comparative analysis could not be completed.
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7 Summary of the Implications of the Audit Findings
This report includes information on an energy efficiency audit conducted by Arup for Irish Cement Limited (ICL) at their cement production plant in Platin, Co. Meath.
The main findings of the report are as follows:
Kiln 3 which was commissioned in 2008 is a modern high efficiency plant which avails of the latest energy efficient technologies.
SRF (solid recovered fuel) was introduced as a fossil fuel substitute in March 2011. The introduction of SRF as part fossil fuel replacement in Kiln 3 uses material that otherwise would go to landfill.
A review of the overall site power consumption (kWhrs) for the years 2010 and 2011 shows a reduction of 7.5%.
ICL undertake continuous energy efficiency improvements. A register of energy efficiency improvement projects has been developed. Where these projects are found to make financial sense ICL provide funding for their implementation. This register is continually addressed and amended.
Overall site electricity and fuel consumption is tightly controlled. Continual measurement of kWh/tonne clinker and kWh/tonne cement are used to monitor process energy efficiency. Due to the commercially sensitive nature of their data this information could not be included in the report.
It is recommended that a Variable Speed Drive (VSD) is installed on the new 55kW limestone powder blower machine to reduce electricity consumption.
It is recommended to review the Power Factor Correction (PFC) equipment with a view to achieving possible electricity savings. .
It is recommended that a timeclock and a manual override switch are installed in the cement packing building to replace the current manual light switching.
It is recommended that a timeclock and a manual override switch are installed in the garage to replace the current manual light switching. It is also recommended to clean all rooflights in the garage for increased natural daylight.
It is recommended that a feasibility study is carried out as to the viability of using waste heat from Kiln 3.
It is recommended that a feasibility study is carried out as to whether improved controls on the Central Compressed Air plant can be utilised to better match the plant operation with varying process plant demand. It is also recommended that compressors are switched off during the weekend when not in use.
Irish Cement Ltd., Platin Works
IPPC Licence Reg. No. P0030-04
8. E-PRTR
Sheet : Facility ID Activities AER Returns Workbook 25/3/2013 15:5
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 |
Guidance to completing the PRTR workbook
Version 1.1.16REFERENCE YEAR 2012
1. FACILITY IDENTIFICATIONParent Company Name Irish Cement Limited
Facility Name Irish Cement LimitedPRTR Identification Number P0030
Licence Number P0030-04
Waste or IPPC Classes of ActivityNo. class_name
10.1 The production of cement.11.1 #######################################################
Address 1 PlatinAddress 2 DroghedaAddress 3 County LouthAddress 4
LouthCountry Ireland
Coordinates of Location -6.38553 53.6843River Basin District IEEA
NACE Code 2351Main Economic Activity Manufacture of cement
AER Returns Contact Name Andrew Doyle AER Returns Contact Email Address [email protected]
AER Returns Contact Position Environmental EngineerAER Returns Contact Telephone Number 00353419876502
AER Returns Contact Mobile Phone NumberAER Returns Contact Fax Number 00353419876001
Production Volume 0.0Production Volume Units
Number of Installations 0Number of Operating Hours in Year 0
Number of Employees 0User Feedback/Comments
Web Address
2. PRTR CLASS ACTIVITIESActivity Number Activity Name3(c)(i) Cement clinker in rotary kilns50.1 General
3. SOLVENTS REGULATIONS (S.I. No. 543 of 2002)Is it applicable? No
Have you been granted an exemption ?If applicable which activity class applies (as per
Schedule 2 of the regulations) ?Is the reduction scheme compliance route being
used ?
4. WASTE IMPORTED/ACCEPTED ONTO SITE Guidance on waste imported/accepted onto site
AER Returns Workbook
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 1 of 2
Sheet : Facility ID Activities AER Returns Workbook 25/3/2013 15:5
Do you import/accept waste onto your site for on-site treatment (either recovery or disposal
activities) ? Yes
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 2 of 2
Sheet : Releases to Air AER Returns Workbook 28/3/2013 10:46
4.1 RELEASES TO AIR Link to previous years emissions data | PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | 28/03/2013 10:468 21 29 30 38 44 6 8 6 6 6 14 43
SECTION A : SECTOR SPECIFIC PRTR POLLUTANTSPlease enter all quantities in this section in KGs
QUANTITYA2-02 Kin 2 Stack A2-03 Coal Mill 2 Stack A2-08 Kiln 3 Stack
No. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 Emission Point 2 Emission Point 3 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year
08 Nitrogen oxides (NOx/NO2) M OTH
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 12242.9649462 864.2000187 869030.9797045 882138.1446694 0.0 0.0
03 Carbon dioxide (CO2) C ETS 11037304.764894 3679101.588298 679602578.976191 694318985.329383 0.0 0.0
11 Sulphur oxides (SOx/SO2) M OTH
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 0.0 289.4205003 30928.7227176 31218.1432179 0.0 0.0
02 Carbon monoxide (CO) M OTH
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 5991.2582922 117.1273475 144723.2785492 150831.6641889 0.0 0.0
84 Fluorine and inorganic compounds (as HF) M OTH
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 0.0 0.0 231.5991015 231.5991015 0.0 0.0
80 Chlorine and inorganic compounds (as HCl) M OTH
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 0.0 0.0 2852.2300569 2852.2300569 0.0 0.0
47 PCDD + PCDF (dioxins + furans)(as Teq) M EN 1948-1 to3:2003 0.0 0.0 0.000001202 0.000001202 0.0 0.018 Cadmium and compounds (as Cd) M EN 14385:2004 0.0 0.0 0.3531344 0.3531344 0.0 0.017 Arsenic and compounds (as As) M EN 14385:2004 0.0 0.0 0.6384026 0.6384026 0.0 0.019 Chromium and compounds (as Cr) M EN 14385:2004 0.0 0.0 53.8092855 53.8092855 0.0 0.020 Copper and compounds (as Cu) M EN 14385:2004 0.0 0.0 9.6105469 9.6105469 0.0 0.023 Lead and compounds (as Pb) M EN 14385:2004 0.0 0.0 1.4700513 1.4700513 0.0 0.022 Nickel and compounds (as Ni) M EN 14385:2004 0.0 0.0 26.9106817 26.9106817 0.0 0.021 Mercury and compounds (as Hg) M EN 13211:2001 0.0 0.0 8.3110425 8.3110425 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION B : REMAINING PRTR POLLUTANTSPlease enter all quantities in this section in KGs
QUANTITY
No. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year0.0 0.0 0.0 0.00.0 0.0 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION C : REMAINING POLLUTANT EMISSIONS (As required in your Licence)Please enter all quantities in this section in KGs
QUANTITY
A2-02 Kiln 2 Stack A2-07 Kiln 2 Grate Cooler A2-03 Coal Mill 2 Stack A2-08 Kiln 3 Stack A2-09 Kiln 3 Grate Cooler A2-04 Cement Mill 1A2-05 Cement Mill
2 A2-06 Cement Mill
3A2-10 Cement
Mill 4
Pollutant No. Name M/C/E Method Code Designation or Description Emission Point 1 Emission Point 2 Emission Point 3 Emission Point 4 Emission Point 5 Emission Point 6 Emission Point 7 Emission Point 8 Emission Point 9T (Total) KG/Year
A (Accidental) KG/Year
F (Fugitive) KG/Year
210 Dust M ALT BS EN 13284-1 361.6528077 48.6398803 4.438127 3387.4695441 1380.9249569 0.0 932.0486335 961.2262447 275.1802757 ######### 0.0 0.0205 Antimony (as Sb) M EN 14385:2004 0.0 0.0 0.0 1.5034093 0.0 0.0 0.0 0.0 0.0 1.5034093 0.0 0.0356 Cobalt M EN 14385:2004 0.0 0.0 0.0 1.5862291 0.0 0.0 0.0 0.0 0.0 1.5862291 0.0 0.0233 Thallium compounds M EN 14385:2004 0.0 0.0 0.0 0.7200721 0.0 0.0 0.0 0.0 0.0 0.7200721 0.0 0.0321 Manganese (as Mn) M EN 14385:2004 0.0 0.0 0.0 8.2773783 0.0 0.0 0.0 0.0 0.0 8.2773783 0.0 0.0236 Vanadium (as V) M EN 14385:2004 0.0 0.0 0.0 0.945526 0.0 0.0 0.0 0.0 0.0 0.945526 0.0 0.0
351 Total Organic Carbon (as C) M PER
Fourier Transform Infrared (FT-IR) spectrometry continuous monitoring 0.0 0.0 0.0 9609.6896922 0.0 0.0 0.0 0.0 0.0 ######### 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
Additional Data Requested from Landfill operators
Landfill: Irish Cement LimitedPlease enter summary data on the quantities of methane flared and / or utilised
additional_pollutant_no T (Total) kg/Year M/C/E Method CodeDesignation or
DescriptionFacility Total Capacity m3
per hourTotal estimated methane generation (as per
site model) 0.0 N/AMethane flared 0.0 0.0 (Total Flaring Capacity)
Methane utilised in engine/s 0.0 0.0 (Total Utilising Capacity)Net methane emission (as reported in Section
A above) 0.0 N/A
RELEASES TO AIRPOLLUTANT METHOD
Method Used
RELEASES TO AIR
RELEASES TO AIRMETHOD
POLLUTANT METHODMethod Used
For the purposes of the National Inventory on Greenhouse Gases, landfill operators are requested to provide summary data on landfill gas (Methane) flared or utilised on their facilities to accompany the figures for total methane generated. Operators should only report their Net methane (CH4) emission to the environment under T(total) KG/yr for Section A: Sector specific PRTR pollutants above. Please complete the table below:
Method Used
Method Used
POLLUTANT
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 1 of 1
Sheet : Releases to Waters AER Returns Workbook 25/3/2013 15:7
4.2 RELEASES TO WATERS Link to previous years emissions data | PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | 25/03/2013 15:078 8 16 17 25 28 6 7 6 6
SECTION A : SECTOR SPECIFIC PRTR POLLUTANTS Data on ambient monitoring of storm/surface water or groundwater, conducted as part of your licence requirements, should NOT be submitted under AER / PRTR Reporting as this only concerns Releases from your facilityPlease enter all quantities in this section in KGs
QUANTITYSW-4 IPPC Licensed
Emission Point to River
No. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 Emission Point 2 T (Total) KG/YearA (Accidental) KG/Year
F (Fugitive) KG/Year
23 Lead and compounds (as Pb) M OTH APHA 3125B 5.9788407 0.0 5.9788407 0.0 0.0* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION B : REMAINING PRTR POLLUTANTSPlease enter all quantities in this section in KGs
QUANTITYSW-4 IPPC Licensed
Emission Point to RiverNo. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year
20 Copper and compounds (as Cu) M OTH APHA 3125B 9.7055387 9.7055387 0.0 0.024 Zinc and compounds (as Zn) M OTH APHA 3125B 9.2556303 9.2556303 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION C : REMAINING POLLUTANT EMISSIONS (as required in your Licence)Please enter all quantities in this section in KGs
QUANTITYSW-4 IPPC Licensed
Emission Point to RiverPollutant No. Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year
303 BOD M OTH APHA 5210B 0.0 0.0 0.0 0.0240 Suspended Solids M OTH APHA 2540D 23405.6400535 23405.6400535 0.0 0.0324 Mineral oils M OTH USEPA 8015B 0.0 0.0 0.0 0.0306 COD M OTH APHA 5220B 5201.2533452 5201.2533452 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
RELEASES TO WATERS
RELEASES TO WATERS
Method Used
POLLUTANT
Method Used
POLLUTANT
POLLUTANTRELEASES TO WATERS
Method Used
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 1 of 1
Sheet : Releases to Wastewater or Sewer AER Returns Workbook 25/3/2013 15:8
4.3 RELEASES TO WASTEWATER OR SEWER Link to previous years emissions data | PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | 25/03/2013 15:088 8 16 16 6 6 6 6
SECTION A : PRTR POLLUTANTSPlease enter all quantities in this section in KGs
QUANTITY
No. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year0.0 0.0 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION B : REMAINING POLLUTANT EMISSIONS (as required in your Licence)Please enter all quantities in this section in KGs
QUANTITY
Pollutant No. Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year F (Fugitive) KG/Year0.0 0.0 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
OFFSITE TRANSFER OF POLLUTANTS DESTINED FOR WASTE-WATER TREATMENT OR SEWER
OFFSITE TRANSFER OF POLLUTANTS DESTINED FOR WASTE-WATER TREATMENT OR SEWER
Method Used
Method Used
POLLUTANT METHOD
POLLUTANT METHOD
Link to previous years emissions data Page 1 of 1
Sheet : Releases to Land AER Returns Workbook 25/3/2013 15:9
4.4 RELEASES TO LAND Link to previous years emissions data | PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | 25/03/2013 15:098 8 16 16 6 6 6 6
SECTION A : PRTR POLLUTANTSPlease enter all quantities in this section in KGs
QUANTITY
No. Annex II Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year0.0 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
SECTION B : REMAINING POLLUTANT EMISSIONS (as required in your Licence)Please enter all quantities in this section in KGs
QUANTITY
Pollutant No. Name M/C/E Method Code Designation or Description Emission Point 1 T (Total) KG/Year A (Accidental) KG/Year0.0 0.0 0.0
* Select a row by double-clicking on the Pollutant Name (Column B) then click the delete button
POLLUTANT METHODMethod Used
RELEASES TO LAND
RELEASES TO LAND
POLLUTANT METHODMethod Used
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 1 of 1
Sheet : Treatment Transfers of Waste AER Returns Workbook 25/3/2013 15:10
5. ONSITE TREATMENT & OFFSITE TRANSFERS OF WASTE | PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | 25/03/2013 15:105 24 Please enter all quantities on this sheet in Tonnes 0
Quantity (Tonnes per
Year)
Haz Waste : Name and Licence/Permit No of Next
Destination Facility Non Haz Waste: Name and Licence/Permit No of
Recover/Disposer
Haz Waste : Address of Next Destination Facility
Non Haz Waste: Address of Recover/Disposer
Name and License / Permit No. and Address of Final Recoverer /
Disposer (HAZARDOUS WASTE ONLY)
Actual Address of Final Destination i.e. Final Recovery / Disposal Site
(HAZARDOUS WASTE ONLY)
Transfer DestinationEuropean Waste
Code Hazardous Quantity T/Year Description of Waste
Waste Treatment Operation M/C/E Method Used
Location of Treatment Name and Licence / Permit No. of Recoverer / Disposer / Broker Address of Recoverer / Disposer / Broker Name and Address of Final Destination i.e. Final Recovery / Disposal Site (HAZARDOUS WASTE ONLY) Licence / Permit No. of Final Destination i.e. Final Recovery / Disposal Site (HAZARDOUS WASTE ONLY)
To Other Countries 11 01 13 Yes 0.393degreasing wastes containing dangerous substances R2 M Weighed Abroad
Safety Kleen Ireland Ltd.,W0099-01
Unit 5 ,Airton Road,Tallaght,Dublin 24,Ireland
Solvent Resource Management Ltd.,CB\VN5114TX,Weeland Road,Knottingly,West Yorkshire,WF11 8ZD,United Kingdom
Weeland Road,Knottingly,West Yorkshire,WF11 8ZD,United Kingdom
Within the Country 13 02 08 Yes 8.19 other engine, gear and lubricating oils R9 M Weighed Offsite in Ireland ENVA Ireland,W0184-01
Clonminam Industrial Estate,.,Portlaoise,Co Laois,Ireland
ENVA ,W0184-1,Clonminam Industrial Estate,Portlaoise,.,Co. Laois,Ireland
Clonminam Industrial Estate,Portlaoise,.,Co. Laois,Ireland
Within the Country 13 08 02 Yes 2.04 other emulsions R1 M Weighed Offsite in Ireland ENVA Ireland,W0184-01
Clonminam Industrial Estate,.,Portlaoise,Co Laois,Ireland
ENVA ,W0184-1,Clonminam Industrial Estate,Portlaoise,.,Co. Laois,Ireland
Clonminam Industrial Estate,Portlaoise,.,Co. Laois,Ireland
Within the Country 15 01 10 Yes 1.73packaging containing residues of or contaminated by dangerous substances R4 M Weighed Offsite in Ireland ENVA Ireland,W0184-01
Clonminam Industrial Estate,.,Portlaoise,Co Laois,Ireland
MSM Recycling,WMP 02/2008,Unit 41,Cookstown Industrial Estate,Tallaght,Dublin 24,Ireland
Unit 41,Cookstown Industrial Estate,Tallaght,Dublin 24,Ireland
To Other Countries 15 02 02 Yes 6.365
absorbents, filter materials (including oil filters not otherwise specified), wiping cloths, protective clothing contaminated by dangerous substances R1 M Weighed Abroad ENVA Ireland,W0184-01
Clonminam Industrial Estate,.,Portlaoise,Co Laois,Ireland
Lindenschmidt KG,E9709-5037,.,Krombacher Str. 42-46,Kreuztal-Krombach,D-57223 ,Germany
.,Krombacher Str. 42-46,Kreuztal-Krombach,D-57223 ,Germany
Within the Country 16 01 03 No 6.3 end-of-life tyres R5 M Weighed Offsite in IrelandCrumb Rubber Ireland ,WFP-LH-10-0005-01
Mooretown,Dromiskin,Dundalk,Co Louth ,Ireland
Within the Country 16 06 04 No 0.117 alkaline batteries (except 16 06 03) R4 M Weighed Offsite in IrelandRilta Environmental Ltd,WP 0192-3
Block 402 Grants Drive,Greenogue Business Park,Rathcoole,Co Dublin,Ireland
Within the Country 17 09 04 No 7.5
mixed construction and demolition wastes other than those mentioned in 17 09 01, 17 09 02 and 17 09 03 R12 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 19 09 02 No 105.69 sludges from water clarification D8 M Weighed Offsite in Ireland Panda Waste,W0140-03Rathdrinagh,Beauparc,Navan,Co Meath,Ireland
To Other Countries 20 01 21 Yes 0.214fluorescent tubes and other mercury-containing waste R4 M Weighed Abroad
Irish Lamp Recycling Co. Ltd.,WFP-KE-08-0384-01
Woodstock Industrial Estate,Kilkenny Road ,Athy,Co. Kildare,Ireland
Clauhuis Metals ,MB/00.091030A,Claushuis Metals 3899AH Zeewp,.,3899AH Zeewp,.,Netherlands
Claushuis Metals 3899AH Zeewp,.,3899AH Zeewp,.,Netherlands
To Other Countries 20 01 25 No 0.28 edible oil and fat R12 M Weighed Abroad Frylite Ltd,WML 26/26
Orchard Road,Orchard Road Industrial Estate,Strabane,BT82 9FR Northern Ireland,United Kingdom
Within the Country 20 01 35 Yes 0.905
discarded electrical and electronic equipment other than those mentioned in 20 01 21 and and 20 01 23 containing hazardous components R5 M Weighed Offsite in Ireland
Irish Lamp Recycling Co. Ltd.,WFP-KE-08-0384-01
Woodstock Industrial Estate,Kilkenny Road ,Athy,Co. Kildare,Ireland
KMK ,W0113-03,Tullamore,.,.,Co. Offaly,Ireland
Tullamore,.,.,Co. Offaly,Ireland
Within the Country 20 01 38 No 71.58 wood other than that mentioned in 20 01 37 R3 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 20 01 40 No 0.53 metals R4 M Weighed Offsite in IrelandMSM Recycling,WMP 02/2008
Unit 41,Cookstown Industrial Estate,Tallaght,Dublin 24,Ireland
Method Used
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 1 of 2
Sheet : Treatment Transfers of Waste AER Returns Workbook 25/3/2013 15:10
Quantity (Tonnes per
Year)
Haz Waste : Name and Licence/Permit No of Next
Destination Facility Non Haz Waste: Name and Licence/Permit No of
Recover/Disposer
Haz Waste : Address of Next Destination Facility
Non Haz Waste: Address of Recover/Disposer
Name and License / Permit No. and Address of Final Recoverer /
Disposer (HAZARDOUS WASTE ONLY)
Actual Address of Final Destination i.e. Final Recovery / Disposal Site
(HAZARDOUS WASTE ONLY)
Transfer DestinationEuropean Waste
Code Hazardous Quantity T/Year Description of Waste
Waste Treatment Operation M/C/E Method Used
Location of Treatment Name and Licence / Permit No. of Recoverer / Disposer / Broker Address of Recoverer / Disposer / Broker Name and Address of Final Destination i.e. Final Recovery / Disposal Site (HAZARDOUS WASTE ONLY) Licence / Permit No. of Final Destination i.e. Final Recovery / Disposal Site (HAZARDOUS WASTE ONLY)
Method Used
Within the Country 20 01 40 No 49.57 metals R4 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 20 03 01 No 112.75 mixed municipal waste R1 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 20 01 40 No 66.82 metals R4 M Weighed Offsite in IrelandIrish Metal Refineries,WFP 090301
Unit 2,Duleek Business Park,Duleek ,Co Meath,Ireland
Within the Country 20 01 02 No 0.08 glass R12 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 02 02 03 No 0.46materials unsuitable for consumption or processing R3 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
Within the Country 15 01 06 No 16.31 mixed packaging R3 M Weighed Offsite in Ireland
Greyhound Recycling & Recovery,W00205-01; W0238-01
Crag Avenue,Clondalkin,Dublin ,12,Ireland
* Select a row by double-clicking the Description of Waste then click the delete button
| PRTR# : P0030 | Facility Name : Irish Cement Limited | Filename : P0030_2012.xls | Return Year : 2012 | Page 2 of 2