energy optimization in a flour milling plant...plant sections intake, pre-cleaning 200 t/h 1st...
TRANSCRIPT
![Page 1: Energy optimization in a Flour Milling plant...Plant sections Intake, pre-cleaning 200 t/h 1st cleaning 40 t/h 2nd cleaning 31.4 t/h Mill 750 t/24h Rebolting and bin filling mill Flour](https://reader033.vdocuments.mx/reader033/viewer/2022060509/5f25f458a71494701d1149a3/html5/thumbnails/1.jpg)
Energy
optimization in a
Flour Milling plant
Walter Bruggmann
Jochen Schneider
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2 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Introduction
Primary concern:
Contribution to energy saving depate
Global energy prices
Energy costs up to 5% of total running costs
Investments for lowering power consumption must pay off
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3 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Overview
Cost structure of a flour mill
Energy consumption
Consumption monitoring with WinEnergy control module
Plant layout of transformer and low tension
Starting characteristics and quality aspects of motors
Technology and engineering aspects
Summary
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4 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
76 - 80 %
7 - 10 %
7 - 8 %6 - 8 %
X %
Capital costs: 6 - 8 %
- amortization 3-4 %- interest 3-4 %
Profit xx %
Raw material: 76 – 80 %- Grain- Additives
Production: 7 – 10 %
- Energy 3 – 5 %- Staff 3 – 5 %- Maintenance ~ 1 %
Distribution: 7 - 8 %
- packing 2 %- transport 2 %- staff 2 %- marketing 1 %
Cost structure of a Flour Mill
Example from mills in Europe
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5 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Operating costs
Much attention has been already paid to operating costs in the past:
Processes were constantly streamlined, reducing labor costs
the focus now should be on saving energy
and optimizing power consumption !
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6 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
0.0 kWh
5.0 kWh
10.0 kWh
15.0 kWh
20.0 kWh
25.0 kWh
30.0 kWh
35.0 kWh
40.0 kWh
En
erg
y p
er
ton
Plant sections
Intake, pre-cleaning200 t/h
1st cleaning 40 t/h
2nd cleaning 31.4 t/h
Mill 750 t/24h
Rebolting and binfilling mill
Flour handling mill
Wheat feed, germ,
pelleting, screenings
Flour packing /
palletizing
Auxiliary (compressor,air make-up)
Warehouse
Infrastructure
Energy Consumption
2.0
kW
h
4.5
kW
h
2.8
kW
h
5.4
kW
h
4.1
kW
h
12.8
kW
h
2.3
kW
h
2.4
kW
h
0.6
kW
h
1.3
kW
h
37.0
kW
h
Total plant 75,2 kWh / to
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7 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Power monitoring with WinEnergy
Consumption measuring in each section
PLC
Plant operating
Automated Plant control
Profibus-DP
Ethernet
LT-DB 1
Intake / Cleaning
LT-DB 2
Mill / Bin filling
LT-DB 3
Flour handling / By-products
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8 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Power monitoring with WinEnergy.
Plant control with WinCos
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actual power consumption vs. installed kW
Oversized motors
Simultaneous factor not considered (machines not running simultaneously)
Consequences
Oversized transformer
Power factor correction unit on limit
Enormous loss trough reactive power
Cables, contactors and starters over-dimensioned
Power supply / InfrastructureCritical factors:
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10 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Plant layout: transformer and low tension
Transformer / Generator close to low tension-DB
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Low tension-DB close to Motor Control Center
Storage /
Bagging
Byproducts
Pellet Mill
Wheat Silo
Storage / Bagging
Finished products
Mil
l
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11 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Starting characteristics of motors
Depending on service hours, specific function and rating,
the starting mode of drives have an appreciable impact
on efficiency and electricity costs
Frequency converters (FC) and Softstarters (SS) are
interessting alternatives
FC and SS are technically improved, moderate prices
FC improves power factor and motor efficiency
This leads to reduction in Energy
and costs for power factor correction
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12 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Starting characteristics & Network current
Process:
Direct on Line
Advantages:
- torque straight available
- no extra investment
- simple installation
Disadvantage:
- huge starting current (7x IN)
- high transformer load (short)
- voltage dip (short)
Process:
Direct on Line
direct Start IN (Motor) = 2,3 Adirect start IN (Motor) = 2,3 A
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13 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Starting characteristics & Network current
Advantages:
- moderate investment
- simple installation
- known technology
Disadvantage:
- high starting current (2x IN)
- 5-6x lower torque
- voltage dip (short)
Process:
Star / Delta
Star / Delta IN (Motor) = 2,3 A
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14 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Starting characteristics & Network current
Advantages:
- min. additional cost
- simple installation
- transformer friendly appl.
Disadvantage:
- moderate starting current
- high transformer load (short)
Process:
Softstart (SS)
Softstart with a 30% of boost
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15 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Starting characteristics & Network current
Start with a frequency converter
Advantages:
- low starting current (<2x IN)
- increase Cos φ (> 0.97 )
- no Voltage dip
- energy saving
- great flexibility
Disadvantage:
- high initial Investment
- space requirement
- shielded cables (EMC)
Process:
Frequency converter (FC)
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16 | Energy optimization – IAOM Oman 2007 | MU91 | © Bühler
Quality aspects of Motors
Quality indication of motors
Iron core loss (18%)
- optimized steel quality
- thinner lamination
Rotor loss (24%)
- optimized steel quality
- thinner slats
Stator copper loss (34%)
- optimized grooves
- larger wiring
Loss due to
bearing/air friction (10%)
- smaller fan
Spread loss (14%)
-improved design of surface
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real efficiency η > 0.9
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Compact building concept minimizes conveying distance
Storage /
Bagging
Byproducts
Pellet Mill
Wheat Silo
Storage / Bagging
Finished products
Mill
reduction in installation costs
Technology and Engineering aspects.
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saving in power consumption
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Engineering aspects:
1 and 2 Break roller millsinstalled above plansifter(12-18% lower air volume)
st nd
Control sifter and weigherin direct flow
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Less pneumatic liftsEnergy saving
no relift
Energy saving
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Eight-roller-mill
Twin-Drive with one motor for 2 passages
up to 45kW motors
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Eight roller MDDO with 4 motors of 37 kW each passage (total 148 kW)
Eight roller MDDO with 2 motors of 45 kW for two passages (total 90 kW).
Eight-roller-mill “Twin- Drive”
Reduction up to 39% of the installed power
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Mill pneumatic:
„Energy saving through air volume reduction‟
Horizontal conveying
incl. elbow Ø 132.5mm
144mm ØB1/B2 PN-lift
Mill-PN
Horizontal conveying
incl. elbow Ø 120mm
B1/B2 PN-lift
Mill-PN
144mm Ø
20% reduced air speed (m/s)
10% lower negative pressure
25% reduced air volume (m3/min)
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Previous design
Optimized design
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Example of a 275to / 24h Wheat flour mill
1 BK / 2 BK Eight Roller mill above plansifter
Mill pneumatic: Summary
st nd
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Mill-Pneumatic fan equipped with a Frequency converter
Power requirement with optimized design of pneumaticsystem : 76,5 kW (310m instead of 360m )
motor installed: 90 kW instead of 110 kW
33
Power factor improved cos φ > 0,97
Energy saving up to 10% possible
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Central rinsing air blower with frequency
converter
FC operation
Mill-pn filter Mill-asp. filter
Wheat intake filter Cleaning filter By-product filter
Asp. filter bin filling Asp. filter flour silo
- airflow permanently adjusted to
actual need
- no pressure relief
into atmosphere
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10 - 30% Energy saving
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Air compressor with frequency converter
- necessary pressure lower, remaining constant
- airflow permanently adjusted to actual need
FC operation - 40% Energy saving
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Summary
Each motor which can be avoided leads to a power saving
Use motors with a power factor cos φ >0.9
Evaluate the use of frequency converters
Optimize mill pneumatic
Use of Twin-Drive on eight-roller mills
1 BK / 2 BK roller mills above plansifter can save energy
In-line flour re-bolting and weighing avoid re-lifting
Use elevators instead of blow lines where adequate
Operate sub-processes during off-peak times (over night)
st nd
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Summary continued
Design transformers only as large as really needed
Place transformers close to DB and consumers
Long cable distances mean higher power losses
Oversizing cables creates high investment costs (copper and steel prices)
Use automated control systems to improve processes (optimize start- / stop sequences, control controller, adjustment settings)
Use energy management systems (WinEnergy) (supervision / monitoring of energy consumption)
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Thank youfor your attention.
Walter Bruggmann
Jochen Schneider