technical report no. 64.181.18.06244.01 rev.00 dated 2018 ... · 2 2.1, 2.2 2.3 to 2.4 2.5 3 3.1 4...

Client: Name:

Address:

Contact person:

Manufacturing place: Manufacturer’s name:

Address:

Factory’s name:

Address:

Test subject: Product:

Type:

Trade name:

Test specification:

Purpose of

examination:

Test result:

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Test according to the test specification

The test results show that the presented product is in compliance with the

specified requirements

This technical report may only be quoted in full. Any use for advertising purposes must be granted in writing. This report is the

result of a single examination of the object in question and is not generally applicable evaluation of the quality of other products in

regular production.

GD Midea Heating & Ventilating Equipment Co., Ltd.

Penglai Industry Road, Beijiao, Shunde, Foshan,

Guangdong, 528311 P.R. China.

Mr. Michael Chen




Technical Report No. 64.181.18.06244.01 Rev.00

Dated 2018-12-03



EN 14825:2016

OJ 2014/C 207/02:2014-7-3

EU 2016/2281:2016-12-20(only check energy efficiency

test)

EU 2016/2282:2016-11-30


MONOBLOC HEAT PUMP

MHC-V16W/D2N8, MHC-V16W/D2RN8

Midea, MDV

EN 12102-1:2017

(EU) No 811/2013

(EU) No 813/2013

EN 50564:2011

OJ 2017/C 229/01:2017-07-14

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 1 of 37

1

1.1

1.2

1.3

##

##

##

##

##

N/A

15.3

Declared Tdesignc (°C) : 35

Series No :

Declared Pdesignc (kW) at 18°C:

16.0

Construction :

Supply connection : Non detachable cord

Warmer

/2800

Declared Pdesignh (medium

temperature application average

condition) (kW):

14.6

Declared Pdesignc (kW) at 7°C: 13.9 T

PS

_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Manufacturer’s specification for intended use:

Manufacturer’s specification for predictive misuse:

The appliance is air to water heat pump.

Rated Frequency (Hz) :

MHC-V16W/D2N8, MHC-V16W/D2RN8

Declared TOL (°C) : -10

Intermittent operation;

Short time operation;

Stationary

Declared Tbiv (°C) : -7

N/A

Class I

IP 24

Not applicable

Declared Pdesignh (low

temperature application average

condition) (kW):

Declared Tdesignh (°C) : -10

Continuous operation; Operation mode:

Permanent connection to fixed wiring

Description of the test subject

Function

Consideration of the foreseeable misuse

Technical Data

Rated Current (A) :

Protection Class :

Colder

Sound power level dB(A) : 71

Declared parameters :

Refrigerant/charge (g) : R32

Average

(According to user manual)

Refer to model list on page 4

50

Model :

Covered through the applied standard

Covered by the following comment

Covered by attached risk analysis

Rated Power (W) : 6500

Rated Voltage (V) :

Protection Against Moisture :

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 2 of 37

2

2.1,

2.2

2.3to

2.4

2.5

3

3.1

4

4.1

4.2

4.3

5

Order

Date of Purchase Order, Customer’s Reference

Receipt of Test Sample, Condition, Location

Location of Testing

2018-10-28 2018-11-17

2018-09-06 Mr. Michael Chen

Guangdong Chigo Heating & Ventilation Equipment Co.,Ltd

• Appendix II Marking plate

2018-10-28

Address: NO.1, Helangsha village, Shengli Industrial Zone, lishui Town,Nanhai District,

Foshan City, Guangdong,528244 P.R.China

N/A

Remarks to Factory

• Appendix IV Construction data form

• Appendix V Test equipment list

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Same as 2.2

N/A

Date of Testing

Points of Non-compliance or Exceptions of the Test Procedure

Test Results

Positive Test Results

Remark

Documentation • Appendix I Test results

• Appendix III photo documentation

When the product is placed on the market, it must be accompanied with safety Instruc-

tions written in official language of the country. The instructions shall give information

re-garding safe operation, installation and maintenance.

The user manual has been examined according to the minimum requirements

described in the product standard. The manufacturer is responsible for the accuracy of

further par-ticulars as well as of the composition and layout.

See Appendix I

N/A

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 3 of 37

61)

2)

3)

4)

5)

6)

7)

Tested by: Reviewed by:

The model MHC-V16W/D2N8 is the same as MHC-V16W/D2RN8 except that control

board and rated voltage are different.

According to the client’s requirements, the capacity tests were carried out on model

MHC-V16W/D2N8 as representative and the noise tests were carried out on models

MHC-V16W/D2N8, MHC-V16W/D2RN8.

Code Model name Rated

Voltage

Rated Power

1 MHC-V16W/D2N8 220-240V~ 6500W

2 MHC-V16W/D2RN8 380-415V,

3N~

6500W

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

« Tony Xie » Project Handler

« Gary Sun » Designated Reviewer

TÜV SÜD Certification and Testing (China) Co., Ltd. Guangzhou BranchTÜV SÜD Group

Model list:

Summary

Standby mode power, off mode power and thermostat-off mode power were tested

according to clause 9 of standard EN 14825:2016.

The appliances are non-low-temperature heat pump water heater, its including a whole

compression type refrigerant circuit to heat water in another circuit. The appliance was

for cooling and heating water function.

The main power is respectively 3-pole supply cable for model MHC-V16W/D2N8 and 5-

pole supply cable for model MHC-V16W/D2RN8. But not with plug which not supply by

manufactory.

Water enthalpy method was adopted in this report.

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 4 of 37

Table 1.

Product type

A

B

C

D

Unit

--

Data

collection

period

hh: min:sec

Defrosts --

Complete

Cycles

--

Barometric

pressure

kPa

Voltage V

Current input

of the unit

A

Power input

of the unit

kW

Inlet Water

temperature,

DB

°C

Outlet Water

temperature,

DB

°C

Air inlet temperature,

DB

°C


WB

°C

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

MHC-V16W/D2N8

No No No No

-- -- -- --

17.99 15.00

Test conditions outdoor unit

35.03 30.03 25.03 20.03

Remark: a) With the water flow rate as determined during “A” test for units.

2.Tested data/correction data:General test

conditions/

Part-Load

A20/W18

(21%)

Appendix I Test results

(35-16)/(Tdesignc-16)

(30-16)/(Tdesignc-16)

(25-16)/(Tdesignc-16)

(20-16)/(Tdesignc-16)

Part load ratio

Model

Air to Water

1. Test conditions:Inlet/outlet

water

temperatures

(°C)

23 / 18

a / 18

a / 18

a / 18

Part load ratio (%)

100

74

47

21

Outdoor air dry bulb

temperature (°C)

35

PCooling mode(at 18°C)

C

30

25

20

0:35:00

101.50

0:35:00

101.70

A35/W18

(100%)

A30/W18

(74%)

A25/W18

(47%)

B

0:35:00

101.40

229.70

8.41

3.629

22.99

1.888

21.73

229.90

4.06

D

0:35:00

A

101.40

230.10

2.00

0.879

20.30

0.390

19.09

Test conditions indoor unit

18.02 18.01 17.97 17.99

23.99 21.99

229.40

15.99

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 5 of 37


Total cooling

capacity

kW

Effective

power input

kW

Energy

efficiency

ratio(EER)

--

Compressor

frequency

Hz

Water flow m³/h

Tdesignc(°C

) Pdesignc

(kW)

Condition Part load

A 15.292

B 11.268

C 7.244

D 3.219

2.65 2.65 2.65

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

5.94

36

3.646

Summary of the results

15.292 11.310 7.149 3.365

7.98

2353

8.27

13

0.896 0.407

4.19

Remark: --

1.905

3.Calculation/conclusion for SEER:

15.292

35

0.00

0.00

Test result at A, B, C, D conditions:

Measured

capacity

15.292

11.310

7.149

CR

1.00

1.00

1.00

0.96

EER at part

load

4.19

5.92

7.98

7.92

2.65

CR: part load divided by capacity;

Electric power consumptions

Value

3.365

EER at

measured

capacity

4.19

5.94

7.98

8.27

Cdc

0.00

0.00

Value

6.95

6.78

Thermostat-off mode [PTO]

Standby mode [PSB]

Crankcase heater [PCK]

Off mode [POFF]

Unit

kW

kW

kW

kW

9175

1353

268.2

Limit of first tier minimum

seasonal space cooling energy

efficiency of cooling products,

expressed in %, according to

table 3 of EU 2016/2281: ηs,c (%)

-- 149

QC:

QCE:

ηs,c

kWh/kWh

Unit

kWh/kWh

kWh/year

kWh/year

%

0.031

0.009

0.000

0.009

Conclusions:

SEERon:

SEER:

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 6 of 37

Table 2.

Product type

A

B

C

D

Unit

--

Data

collection

period

hh: min:sec

Defrosts --

Complete

Cycles

--

Barometric

pressure

kPa

Voltage V

Current input

of the unit

A

Power input

of the unit

kW

Inlet Water

temperature,

DB

°C

Outlet Water

temperature,

DB

°C


DB

°C


WB

°C


35.02 30.03 25.03 20.03

24.00 21.99 17.99 14.99


12.00 12.23 12.29 12.61

7.00 8.46 10.00 11.52

24.21 12.18 5.59 2.30

5.498 2.754 1.231 0.464

101.20 101.40 101.50 101.30

230.50 230.30 230.20 230.00

No No No No

-- -- -- --

A B C D

0:35:00 0:35:00 0:35:00 0:35:00

A25/W10

(47%)

A20/W11.5

(21%)

47 25 a / 10

(20-16)/(Tdesignc-16) 21 20 a / 11.5

Appendix I Test resultsP

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Model MHC-V16W/D2N8

Air to Water

1. Test conditions:Part load ratio Part load ratio (%) Outdoor air dry bulb

temperature (°C)

Inlet/outlet

water

temperatures

(°C)

(35-16)/(Tdesignc-16) 100 35 12 / 7

(30-16)/(Tdesignc-16) 74 30 a / 8.5

Remark: a) With the water flow rate as determined during “A” test for units.

2.Tested data/correction data:General test

conditions/

Part-Load

A35/W7

(100%)

A30/W8.5

(74%)

Cooling mode(at 7°C)

(25-16)/(Tdesignc-16)

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 7 of 37


Total cooling

capacity

kW

Effective

power input

kW

Energy

efficiency

ratio(EER)

--

Compressor

frequency

Hz

Water flow m³/h

Tdesignc(°C

) Pdesignc

(kW)

Condition Part load

A 13.915

B 10.253

C 6.591

D 2.929

ηs,c % 178.5

Limit of first tier minimum

seasonal space cooling energy

efficiency of cooling products,

expressed in %, according to

table 3 of EU 2016/2281: ηs,c (%)

-- 149

QC: kWh/year 8349

QCE: kWh/year 1840

SEERon: kWh/kWh 4.62

SEER: kWh/kWh 4.54

Off mode [POFF] kW 0.009

Conclusions: Unit Value

Standby mode [PSB] kW 0.009

Crankcase heater [PCK] kW 0.000


Electric power consumptions

Unit Value

Thermostat-off mode [PTO] kW 0.031

6.380 5.16 0.00 1.00 5.16

3.050 6.49 0.00 0.96 6.23

13.915 2.53 0.00 1.00 2.53

10.506 3.81 0.00 0.98 3.71

35

13.915

Test result at A, B, C, D conditions:

Measured

capacity

EER at

measured

capacity

Cdc CR EER at part

load

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9


13.915 10.506 6.380 3.050

5.504 2.760 1.237 0.470

2.40 2.40 2.40 2.40

Remark: --

3.Calculation/conclusion for SEER:

2.53 3.81 5.16 6.49

75 48 27 15

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 8 of 37

Table 3.

Product type

Air to Water Averag

e

A W C

A 88 N/A N/A

B 54 N/A N/A

C 35 N/A N/A

D 15 N/A N/A

E

F

G N/A N/A N/A

Unit A(-

10)/W35.

3

(100%)

A(-

7)/W34

(88%)

-- E F

Data

collection

period

hh: min:sec 3:00:00 3:00:00

The heat

pump

defrosts

-- Yes Yes

Complete

Cycles

-- 3 3

Barometric

pressure

kPa 101.05 101.01

Voltage V 229.10 229.10

Current input

of the unit

A 23.51 22.81

Power input

of the unit

kW 5.342 5.184

Inlet Water

temperature,

DB

°C 30.79 29.49

Outlet Water

temperature,

DB

°C 34.88* 33.99

(+12-16)/(Tdesignh-16)

(-15-16)/(Tdesignh-16)

(TOL-16)/ (Tdesignh-16)

0.373

27.05

29.87

a / 24

a / 35.3

a / 34

N/A

25.20

1:10:00

0

MHC-V16W/D2N8

Heating season

Colder

Inlet/outlet water

temperatures (°C)

Outdoor heat exchanger

(-7-16)/(Tdesignh-16) -7(-8) a / 34

Warmer


Model

1. Test conditions:

NoYes Yes

General test

conditions/

Part-Load

Remark: a) With the water flow rate as determined at the standard rating conditions given in

EN14511-2 at 30/35 conditions.

2.Tested data/correction data(Average):

(+2-16)/ (Tdesignh-16) 2(1) a / 30

(+7-16)/(Tdesignh-16) 7(6)

Part Load Ratioin %

Formula Inlet dry (wet)

bulb

temperature

°C

a / 27

(Tbivalent-16)/(Tdesignh-16)

Co

nd

itio

n

A(-7)/W34

(88%)

Indoor heat exchanger

A12/W24

(15%)

12(11)

B C D

3:00:00 3:00:00 1:10:00

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

29.49

33.99

22.81

5.184

229.80

9.43

2.120

230.00

4.32

0.940

No

0

101.01 101.03 101.05

A2/W30

(54%)

A7/W27

(35%)

3

26.98

TOL

Tbiv

-15

23.98

230.10


23.20

229.10

1.89

PHeating mode(Low temperature application):

A

101.02

3

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 9 of 37



DB

°C -9.97 -6.96


WB

°C -10.59 -6.91

Total heating

capacity

kW 12.928 14.155

Effective

power input

kW 5.363 5.205

Coefficient of

performance

(COP)

-- 2.41 2.72

Compressor

frequency

Hz 96 94

Water flow m³/h 2.72 2.72

Tdesignh(°C)

Pdesignh(kW

)

Co

nd

itio

n Part load

E 16.001

F 14.155

A 14.155

B 8.616

C 5.539

D 2.462

-6.96 2.04 7.03 12.04

-6.91 1.00 6.00 11.00


COP at part load

12

Remark: * In part E condition, outlet temperature data is recorded by a full average complete cycle’s

data.

3.Calculation/conclusion for SCOP(Average):

45


2.471

-7

-10

8.920

2.141 0.394

6.27

8.920 4.17 0.00 0.97 4.17

14.155

14.155

2.72

2.72

5.86 0.00 0.98 5.86

2.471 6.27 0.00 1.00 6.27


5.636

1.00

1.00

2.72

2.72

5.636

0.961

5.86

24

0.00

0.00

12.928 2.41 0.00 1.00

COP at

measured

capacity

Cdh CR T

PS

_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

2.41

Test result A, B, C, D, E, F conditions:

Measured

capacity

2.72 2.72 2.72 2.72

2.72

94

4.17

-10

16.001

Tbiv(°C)

TOL(°C)

14.155

5.205

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 10 of 37


Seasonal space heating energy

efficiency classes: (According

(EU) No 811/2013 Table 2)

-- A++

QH: kWh/year 33058

QHE: kWh/year 7694

ηs,h % 168.9

SCOP: kWh/kWh 4.30



0.009

Crankcase heater [PCK]

SCOPon: kWh/kWh 4.30

kW 0.000

Electric power consumptions Unit Value


Standby mode [PSB] kW

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 11 of 37

Table 4

Product type

Air to Water Averag

e

A W C

A 88 N/A N/A

B 54 N/A N/A

C 35 N/A N/A

D 15 N/A N/A

E

F

G N/A N/A N/A

Unit A(-

10)/W55.

3

(100%)

A(-

7)/W52

(88%)

-- E F

Data

collection

period

hh: min:sec 3:00:00 3:00:00

The heat

pump

defrosts

-- Yes Yes

Complete

Cycles

-- 3 3

Barometric

pressure

kPa 101.03 101.02

Voltage V 228.70 228.80

Current input

of the unit

A 29.82 27.90

Power input

of the unit

kW 6.773 6.335

Inlet Water

temperature,

DB

°C 49.39 45.28

Outlet Water

temperature,

DB

°C 54.93* 51.68*

Part Load Ratioin %

Outdoor heat exchanger

Indoor heat exchanger

Formula Inlet dry (wet)

bulb

temperature

°C

Inlet/outlet water

temperatures (°C)


TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Model MHC-V16W/D2N8

Heating season

Warmer Colder

1. Test conditions:

Co

nd

itio

n

(+7-16)/(Tdesignh-16) 7(6) a / 36

(+12-16)/(Tdesignh-16) 12(11) a / 30

(-7-16)/(Tdesignh-16) -7(-8) a / 52

(+2-16)/ (Tdesignh-16) 2(1) a / 42

N/A

Remark: a) With the water flow rate as determined at the standard rating conditions given in

EN14511-2 at 47/55 conditions.

2.Tested data/correction data(Average):General test

conditions/

Part-Load

A(-7)/W52

(88%)

A2/W42

(54%)

A7/W36

(35%)

A12/W30

(15%)

(TOL-16)/ (Tdesignh-16) TOL a / 55.3

(Tbivalent-16)/(Tdesignh-16) Tbiv a / 52

A B C D

3:00:00 3:00:00 1:10:00 1:10:00

(-15-16)/(Tdesignh-16) -15

228.80 229.60 229.90 230.00

Yes Yes No No

3 3 0 0

27.90 11.45 5.75 2.48

6.335 2.587 1.271 0.510

101.02 101.03 101.05 101.06


45.28 37.81 33.32 28.75

51.68* 41.88 36.01 30.01

PHeating mode(Medium temperature application):

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 12 of 37



DB

°C -9.97 -6.96


WB

°C -9.93 -7.44

Total heating

capacity

kW 11.160 12.910

Effective

power input

kW 6.764 6.326

Coefficient of

performance

(COP)

-- 1.65 2.04

Compressor

frequency

Hz 92 90

Water flow m³/h 1.74 1.74

Tdesignh(°C)

Pdesignh(kW

)

Co

nd

itio

n Part load

E 14.594

F 12.910

A 12.910

B 7.858

C 5.052

D 2.245


12.910 8.251 5.455 2.566

6.326 2.578 1.262 0.501

1.74 1.74 1.74 1.74

Remark: * In part A, E, F condition, outlet temperature data is recorded by a full average complete

cycle’s data.

3.Calculation/conclusion for SCOP(Average):

2.04 3.20 4.32 5.13

90 44 26 13

Test result A, B, C, D, E, F conditions:

Measured

capacity

COP at

measured

capacity

Cdh CR COP at part load

-10 Tbiv(°C) -7

14.594 TOL(°C) -10

0.95 3.20

11.160 1.65 0.00 1.00 1.65

12.910 2.04 0.00 1.00 2.04

5.455 4.32 0.00

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9


-6.96 2.07 7.03 12.08

-7.44 1.00 6.00 11.00


0.93 4.32

2.566 5.13 0.90 0.88 5.05

12.910 2.04 0.00 1.00 2.04

8.251 3.20 0.00

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 13 of 37


TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Electric power consumptions Unit Value


Standby mode [PSB] kW 0.009

Crankcase heater [PCK] kW 0.000


Seasonal space heating energy

efficiency classes: (According

(EU) No 811/2013 Table 1)

-- A++

QHE: kWh/year 9222

ηs,h % 127.8

SCOP: kWh/kWh 3.27

QH: kWh/year 30151


SCOPon: kWh/kWh 3.27

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 14 of 37

Table 5a

Model

35.0 /--

12.0 /7.0

Product type : Air to Water

Sound power level LwA****

8

--

Measured position amount :

Reverberation test room

Sponge


Indoor heat exchanger, Water inlet/outlet temperature (°C):

Acoustical environment :

Windshield type :

50

Class AWorking condition class :

Voltage (V): 230

Frequency (Hz):

Setting of controls: according to user manual.

Duct connection:--

Rounding to: *) 1 decimal places; **) 2 decimal places; ***) 3 decimal places; ****) nearest integer

--

--

Spheres radius r * -- --

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Water flow (m³/h): 2.40

-- 70

MHC-V16W/D2N8

Measured quantity LWA,indoors (dB) LWA,outdoors (dB) Remark

Sound pressure level Lp(ST)**** -- 70

PSound power level measurement(Cooling mode at 7°C)

Outdoor heat exchanger, Air temperature DB/WB (°C):

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 15 of 37

Appendix I Test resultsTable 5b

Model

35.0 /--

23.0 /18.0

Air to Water

Water flow (m³/h):

Sound power level LwA**** -- 68 --


Duct connection:--


Working condition class : Class A

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Sound pressure level Lp(ST)**** -- 70 --

Spheres radius r * -- -- --

2.65


Acoustical environment : Reverberation test room

Windshield type : Sponge

Measured position amount : 8

Frequency (Hz): 50

Sound power level measurement(Cooling mode at 18°C) P

MHC-V16W/D2N8

Product type :



Voltage (V): 230

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 16 of 37

Appendix I Test resultsTable 5c

Model

7.0 /6.0

30.0 /35.0

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9



Duct connection:--









Voltage (V): 230

Frequency (Hz): 50


MHC-V16W/D2N8




Sound power level measurement(Low temperature application)

P

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 17 of 37

Appendix I Test resultsTable 5d

Model

7.0 /6.0

47.0 /55.0

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9



Duct connection:--






Reverberation test room



Sound power level measurement(Medium temperature application)

P

MHC-V16W/D2N8




Voltage (V): 230

Frequency (Hz): 50


Acoustical environment :

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 18 of 37

Appendix I Test resultsTable 5e

Model

35.0 /--

12.0 /7.0



Duct connection:--


LWA,outdoors (dB) Remark



TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9


MHC-V16W/D2RN8




Voltage (V): 230

Frequency (Hz): 50






Measured quantity LWA,indoors (dB)

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 19 of 37

Appendix I Test resultsTable 5f

Model

35.0 /--

23.0 /18.0




Duct connection:--


8




TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9


MHC-V16W/D2RN8




Voltage (V): 230

Frequency (Hz): 50





Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 20 of 37

Appendix I Test resultsTable 5g

Model

7.0 /6.0

30.0 /35.0



Duct connection:--


LWA,outdoors (dB) Remark



TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Sound power level measurement(Low temperature application)

P

MHC-V16W/D2RN8




Voltage (V): 230

Frequency (Hz): 50






Measured quantity LWA,indoors (dB)

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 21 of 37

Appendix I Test resultsTable 5h

Model

7.0 /6.0

47.0 /55.0




Duct connection:--


8




TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Sound power level measurement(Medium temperature application)

P

MHC-V16W/D2RN8




Voltage (V): 230

Frequency (Hz): 50





Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 22 of 37

Appendix II Marking plateNameplate

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Energy label

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 23 of 37

Appendix II Marking plate

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 24 of 37

General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

Appendix III photo documentaiton

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Overall view

View:

Details of: Internal view for MHC-V16W/D2N8

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 25 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Compressor

View:

Details of: Fan motor

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 26 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

Details of: Main control board for MHC-V16W/D2N8

View:

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Water pump

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 27 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

IPM mudule board for MHC-V16W/D2N8

View:

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Main control board for MHC-V16W/D2N8

View:

Details of:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 28 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

View:

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: IPM mudule board for MHC-V16W/D2N8

View:

Details of: Hydro-box control board for MHC-V16W/D2N8

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 29 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Hydro-box control board for MHC-V16W/D2N8

View:

Details of: Internal view for MHC-V16W/D2RN8

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 30 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Main control board for MHC-V16W/D2RN8

View:

Details of: Main control board for MHC-V16W/D2RN8

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 31 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: IPM mudule board for MHC-V16W/D2RN8

View:

Details of: IPM mudule board for MHC-V16W/D2RN8

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 32 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Hydro-box control board for MHC-V16W/D2RN8

View:

Details of: Hydro-box control board for MHC-V16W/D2RN8

View:

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 33 of 37


General

Front

Rear

Right

Left

Top

Bottom

General

Front

Rear

Right

Left

Top

Bottom

View:

Details of: Power board for MHC-V16W/D2RN8

View:

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Details of: Power board for MHC-V16W/D2RN8

Project No: 64.181.18.06242.01

Rev.: 00

Date: 2018-12-03

Page: 34 of 37

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

DC44-200V; 30-306Hz; R32; Class E

Serial-number: N/A

2. Condenser

Type: MVB42FCBMC

Rated capacity:

Appendix IV Construction data formPart Technical data1. Compressor

Manufacture: Mitsubishi Electric (Guangzhou)

Compressor Co., Ltd.

Bauart Construction: Copper tube

Tube total length and location: 84.75m

Type: Tube exchanger

Manufacture: Guangdong Midea Heating&Vengtilanting

Equipment Co., Ltd.

Tube outside diameter and type: Φ9.52 inside thread

Number of rows: 2

Tube pitch: 25.4mm

Number of circuits: 9

Heating exchange area (m2): 1.61

Bauart Construction: /

Fin spacing (mm): 1.52

Manufacture:

Type:

Nidec Shibaura Corp

WZDK100-38G (SIC-71FW-F8100-1)

5. Main control board

for MHC-V16W/D2N8

4. Fan motor

Type: WZDK100-38G (RD-310-100-8H)

95mm*118.4mm*325mm

3. Evaporator

Type: Brazed heat-exchanger

Manufacture: Alfa Laval (Shanghai) Technologies Co., Ltd

Max.permissible pressure (MPa): Test pressure : 4.2Mpa

Dimension (mm):

Specification: DC310V; 100W; Class E

Specification: DC280-380V; 100W; Class E

Manufacture(alternative): Guangdong Welling Motor Manufacturing

Co., Ltd

Type: V-MOK-DXA-A[Pre-Senser].1.1-1

Specification: 220-240V; 50Hz

Manufacture: GD Midea Air-Conditoning Equipment CO.,

LTD

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 35 of 37

Appendix IV Construction data form

8. Power Board for

MHC-V16W/D2RN8

Manufacture: GD Midea Air-Conditoning Equipment Co.,

Ltd

Type: CE-MDV160W/SN1-611.D.2.2-2

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Main control board for

MHC-V16W/D2RN8

6. IPM Module board

for MHC-V16W/D2N8

and MHC-

V16W/D2RN8Manufacture: GD Midea Air-Conditoning Equipment Co.,

Ltd

Type: ME-POWER(PS21A79+PS51789).D.1.1.1.1-

1

Specification: --

7. Hydro-box control

board for MHC-

V16W/D2N8 and MHC-

V16W/D2RN8

Manufacture: GD Midea Air-Conditioning Equipment Co.,

Ltd.

Type: R-WSL120-DXX-A[AC128].1-1

Specification: --

9. Water pump

Manufacture: WILO SE

Type: RS25/7.5-RKC

Specification: --

Specification: Rated Voltage: 230V; 50/60Hz; Rated

Power: 4-75W±10%; Class F

Manufacture: GD Midea Air-Conditoning Equipment CO.,

LTD

Type: V-EOK160-SNX-A.1-1

Specification: 220-240V; 50Hz

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 36 of 37

No. Type Manufacture Model Equipment IDCalibration Due Date

1 AC source Supply Ainuo AN97100TT 129712130G 2019-05-10

2Temperature

measuring system

-- -- 2002050002-1 2019-05-10

3Temperature

measuring system

-- -- 2002050002-2 2019-05-10

4 Pressure transmitter -- 90-120KPa 6D368 2019-05-10

5 Pressure transmitter -- 90-120KPa 6D369 2019-05-10

6 Pressure transmitter -- 90-120KPa 1311016 2019-05-10

7 Pressure transmitter -- 0-250KPa CZZB061014730 2019-05-10

8 Frequency tester -- HD41 HD3860152 2019-05-15

9Multi-function digital

power meter

YOKOGAWA WT230 91G726197 2019-05-10


power meter

YOKOGAWA WT230 91G726195 2019-05-10


power meter

YOKOGAWA WT230 91G128099 2019-05-10

12

Anechoic rooms

(indoor side and

outdoor side: hemi-

anechoic rooms)

China household

appliance

research and

design institute

JLB1983 6.0*5.2*4.2 2019-05-04

13 Microphone B & K 2629061 4189 2019-03-31

14 Microphone B & K 2732427 4189 2019-12-03

15 Calibrator B & K 2637378 4231 2019-03-29

16 Measuring amplifier B & K 3050-105253 3050-B-040 2019-10-10

17 Accelerometer B & K 31668 4393V 2019-06-29

18 Power source Ainuo K3002100006 AN97060TT 2019-01-21

19 Power meter QinZhi 8916010020 8904F 2019-01-04

20 Flowmeter KROHNE H1028455 450C 2019-08-11

21 Hygrothermograph Tianjin 50067 WS-1 2019-03-27

22Atmospheric pressure

meter

YOKOWGAWA 91C745547129 (-50-500)pa 2019-04-11

23temperature

measurement system

-- ZYS20160727-2 PT100 2019-05-31

Appendix V Equipment List

-- End of Report --

TP

S_G

CN

_F

_09.2

0E

– R

ev. 1

2012-1

0-2

9

Project No: 64.181.18.06244.01

Rev.: 00

Date: 2018-12-03

Page: 37 of 37

technical report no. 64.181.18.06244.01 rev.00 dated 2018 ... · 2 2.1, 2.2 2.3 to 2.4 2.5 3 3.1 4...

Documents