Contents
Midea 416KW Engineering Data Thermal Arctic Mono
Product Information
Specifications:
- Model: M thermal Arctic Mono
- Capacity Range: 4kW – 16kW
- Unit Appearances: V4W/D2N8-B, V6W/D2N8-B, V8W/D2N8-B, V10W/D2N8-B, V12W/D2(R)N8-B, V14W/D2(R)N8-B, V16W/D2(R)N8-B
- Power Supply: R: 3-phase, 380-415V, 50Hz; Omitted: 1-phase, 220-240V, 50Hz
General Information:
M thermal Mono System
The M thermal Mono system can be configured to run with the electric heater either enabled or disabled. It can also be used in conjunction with an auxiliary heat source such as a boiler. The chosen configuration affects the size of heat pump that is required. Three typical configurations are described below:
- Configuration 1: Heat pump only: The heat pump covers the required capacity and no extra heating capacity is necessary. This configuration requires the selection of a larger capacity heat pump and implies higher initial investment. It is ideal for new construction projects where energy efficiency is paramount.
- Configuration 2: Heat pump and backup electric heater: The heat pump covers the required capacity until the ambient temperature drops below a certain point. At that point, the backup electric heater kicks in to provide additional heating capacity.
Unit Capacities
The M thermal Arctic Mono series offers unit capacities ranging from 4kW to 16kW. The table below lists the available models and their appearances:
| Capacity | Model | Appearance |
|---|---|---|
| 4kW | V4W/D2N8-B, V4W/D2N8-BE30 | V4W/D2N8-B V6W/D2N8-B V8W/D2N8-B V10W/D2N8-B V12W/D2(R)N8-B V14W/D2(R)N8-B V16W/D2(R)N8-B |
| 6kW | V6W/D2N8-B, V6W/D2N8-BE30 | |
| 8kW | V8W/D2N8-B, V8W/D2N8-BE30, V8W/D2N8-BER90 | |
| 10kW | V10W/D2N8-B, V10W/D2N8-BE30, V10W/D2N8-BER90 | |
| 12kW | V12W/D2(R)N8-B, V12W/D2(R)N8-BE30, V12W/D2(R)N8-BER90 | |
| 14kW | V14W/D2(R)N8-B, V14W/D2(R)N8-BE30, V14W/D2(R)N8-BER90 | |
| 16kW | V16W/D2(R)N8-B, V16W/D2(R)N8-BE30, V16W/D2(R)N8-BER90 |
Nomenclature
The model names of the M thermal Arctic Mono units follow a specific code. Here is a breakdown of the nomenclature:
- M H C – V 16 W / D2 R N8 – B E R 90
- 1: Code M H C V
- 2: Capacity (e.g., 16)
- 3: Unit Appearance (e.g., W)
- 4: Power Supply (R: 3-phase, 380-415V, 50Hz; Omitted: 1-phase, 220-240V, 50Hz)
- 5: Unit Type (N for Mono)
- 6: Unit Configuration (8 for Mono)
- 7: Unit Variation (B)
- 8-9: Unit Variation (E30, ER90)
Part 2 – Engineering Data:
No information is provided in the text extract.
Part 3 – Installation and Field Settings:
No information is provided in the text extract.
Product Usage Instructions
System Configuration:
The M thermal Arctic Mono system can be configured in two ways:
- Heat pump-only configuration: In this configuration, the heat pump covers the required capacity without the need for any additional heating capacity. This configuration is suitable for projects where energy efficiency is a priority. However, it requires the selection of a larger capacity heat pump and involves a higher initial investment.
- Heat pump and backup electric heater configuration: In this configuration, the heat pump covers the required capacity until the ambient temperature drops below a certain point. At that point, the backup electric heater kicks in to provide additional heating capacity. This configuration provides extra heating capacity during colder temperatures.
Selection Procedure:
The following steps should be followed to select and install the M thermal Arctic Mono system:
- Total heat load calculation: Calculate the conditioned surface area and select the heat emitters (type, quantity, water temperature, and heat load).
- System configuration: Decide whether to include an auxiliary heat source (AHS) and set AHS’s switching temperature. Also, decide whether the backup electric heater is enabled or disabled.
- Selection of outdoor units: Determine the required total heat load on outdoor units, set a capacity safety factor, and select the appropriate power supply.
Frequently Asked Questions (FAQ):
Q: What is the power supply for the M thermal Arctic Mono units?
A: The power supply for the M thermal Arctic Mono units can be either 1-phase, 220-240V, 50Hz or 3-phase, 380-415V, 50Hz.
Q: Can the M thermal Arctic Mono system be used with an auxiliary heat source?
A: Yes, the M thermal Arctic Mono system can be used in conjunction with an auxiliary heat source such as a boiler.
Q: What is the difference between the heat pump-only configuration and the heat pump and backup electric heater configuration?
A: In the heat pump-only configuration, the heat pump covers the required capacity without any additional heating capacity. In the heat pump and backup electric heater configuration, the backup electric heater provides additional heating capacity when the ambient temperature drops below a certain point.
Midea Building Technologies Division
Engineering Data
M thermal Arctic Series Mono 4~16kW
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1 M thermal Mono System
1.1 System Schematic
Figure 1-1.1: System schematic
M thermal is an integrated air to water heat pump system which is one-stop solution for space heating, space cooling and domestic hot water, The outdoor heat pump system extracts heat from the outdoor air and transfers this heat through refrigerant piping to the plate heat exchanger in the hydronic system. The heated water in the hydronic system circulates to low temperature heat emitters (floor heating loops or low temperature radiators) to provide space heating, and to the domestic hot water tank to provide domestic hot water. The 4-way valve in the outdoor unit can reverse the refrigerant cycle so that the hydronic system can provide chilled water for cooling using fan coil units. The heating capacity of heat pumps decreases with ambient temperature dropping. M thermal Mono can be equipped with a backup electric heater to provide additional heating capacity for use during extremely cold weather when the heat pump capacity is insufficient. The backup electric heater also serves as a backup in case of heat pump malfunction and for anti-freeze protection of the outside water piping in winter.
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Part 1 – General Information
M thermal Arctic Mono
1.2 System Configurations
M thermal Mono can be configured to run with the electric heater either enabled or disabled and can also be used in conjunction with an auxiliary heat source such as a boiler. The chosen configuration affects the size of heat pump that is required. Three typical configurations are described below. Refer to Figure 1-1.2. Configuration 1: Heat pump only
The heat pump covers the required capacity and no extra heating capacity is necessary. Requires selection of larger capacity heat pump and implies higher initial investment. Ideal for new construction in projects where energy efficiency is paramount. Configuration 2: Heat pump and backup electric heater Heat pump covers the required capacity until the ambient temperature drops below the point at which the heat
pump is able to provide sufficient capacity. When the ambient temperature is below this equilibrium point (as shown in Figure 1-1.2), the backup electric heater supplies the required additional heating capacity. Best balance between initial investment and running costs, results in lowest lifecycle cost. Ideal for new construction. Configuration 3: Heat pump with auxiliary heat source Heat pump covers the required capacity until the ambient temperature drops below the point at which the heat pump is able to provide sufficient capacity. When the ambient temperature is below this equilibrium point (as shown in Figure 1-1.2), depending on the system settings, either the auxiliary heat source supplies the required additional heating capacity or the heat pump does not run and the auxiliary heat source covers the required capacity. Enables selection of lower capacity heat pump. Ideal for refurbishments and upgrades.
Figure 1-1.2: System configurations
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M thermal Arctic Mono
Unit Capacities
Capacity
Model1 (MHC-)
4kW
V4W/D2N8-B V4W/D2N8-BE30
Table 1-2.1:M thermal Mono unit capacity range and unit appearances
6kW
8kW
10kW
12kW
V6W/D2N8-B V6W/D2N8-BE30
V8W/D2N8-B V8W/D2N8-BE30 V8W/D2N8-BER90
V10W/D2N8-B V10W/D2N8-BE30 V10W/D2N8-BER90
V12W/D2(R)N8-B V12W/D2(R)N8-BE30 V12W/D2(R)N8-BER90
14kW
V14W/D2(R)N8-B V14W/D2(R)N8-BE30 V14W/D2(R)N8-BER90
16kW
V16W/D2(R)N8-B V16W/D2(R)N8-BE30 V16W/D2(R)N8-BER90
Midea M thermal Arctic Mono Engineering Data Book
Appearance
Notes: 1. The presence or omission of the letter R in the model names indicates the unit’s power supply: R: 3-phase, 380-415V, 50Hz; Omitted: 1-phase, 220-240V, 50Hz.
Nomenclature
Remarks Brand: Midea brand Unit type: heat pump Series: Mono Inverter Capacity: 4: 4kW; 6: 6kW; 8: 8 kW; 10: 10 kW; 12: 12 kW; 14: 14 kW; 16: 16 kW; Unit category: Outdoor unit Compressor and fan motor types: All DC Power Supply of heat pump R: 3-phase, 380-415V, 50Hz Omitted: 1-phase, 220-240V, 50Hz Refrigerant: R32 Version code Electric heating E: With electric heating function Omitted: Without electric heating function Power Supply of electric heating R: 3-phase, 380-415V, 50Hz Omitted: 1-phase, 220-240V, 50Hz Electric heating capacity 30: 3kW; 90: 9kW;
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Part 1 – General Information
System Design and Unit Selection
Selection Procedure
M thermal Arctic Mono
Step 1: Total heat load calculation
Calculate conditioned surface area Select the heat emitters (type, quantity, water temperature and heat load)
Step 2: System configuration
Decide whether to include AHS and set AHS’s switching temperature Decide whether backup electric heater is enabled or disabled
Step 3: Selection of outdoor units
Determine required total heat load on outdoor units Set capacity safety factor Select power supply
Provisionally select M thermal Mono unit capacity based on nominal capacity
Correct capacity of the outdoor units for the following items: Outdoor air temperature / Outdoor humidity / Water outlet temperature1 / Altitude / Anti-freeze fluid
Is corrected M thermal Mono unit capacity Required total heat load on
outdoor units2
Yes
No
M thermal Mono system selection is complete
Select a larger model or enable backup electric heater operation
Notes: 1. If the required water temperatures of the heat emitters are not all the same, the M thermal Mono’s outlet water temperature setting should be set at the highest of the heat emitter required water temperatures. If the water outlet design temperature falls between two temperatures listed in the outdoor unit’s capacity table, calculate the corrected capacity by interpolation. 2. If the outdoor unit selection is to be based on total heating load and total cooling load, select Mono units which satisfy not only the total heating load requirements but also the total cooling load requirements.
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Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
4.2 M thermal Leaving Water Temperature (LWT) Selection
The recommended design LTW ranges for different types of heat emitter are: For floor heating: 30 to 35C For fan coil units: 30 to 45C For low temperature radiators: 40 to 50C
4.3 Optimizing System Design
To get the most comfort with the lowest energy consumption with M thermal, it is important to take account of the following considerations:
Choose heat emitters that allow the heat pump system to operate at as low a hot water temperature as possible whilst still providing sufficient heating.
Make sure the correct weather dependency curve is selected to match the installation environment (building structure, climate) as well as ender user’s demands.
Connecting room thermostats (field supplied) to the hydronic system helps prevent excessive space heating by stopping the outdoor unit and circulator pump when the room temperature is above the thermostat set point.
4.4 Tank back up heater notice
Heat pump will stop when T5(tank temperature) has reached the minimum of both T5S(tank setting temperature) and T5stop (highest tank temperature which can be reached under certain ambient temperature with heat pump only) and lasted for 5s. The value of T5stop is shown as below. If T5S is higher than T5stop, then T5S can not be reached with heat pump only. In this case, tank back up heater is needed in order to reach T5S.
T5stop value:
Ambient temperature()
< -20
-20~15 -15~-10 -10~-5
-5~0
0~5
5~10
T5stop()
35
40
45
48
52
55
56
Ambient temperature() T5stop()
10~15 57
15~20 56
20~25 55
25~30 52
35~40 50
40~65 48
40~65 45
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Typical Applications
Application 1
M thermal Arctic Mono
Part 1 – General Information
Figure 1-5.1: Application 1
Legend
1
Outdoor unit
14
Domestic hot water tank (Field supply)
3
User interface
14.1
TBH: Domestic hot water tank booster heater (Field supply)
4
SV1:3-way valve (Field supply)
14.2
Coil 1, heat exchanger for heat pump
5
Balance tank (Field supply)
14.3
Coil 2, heat exchanger for Solar energy
5.1
Automatic bleed valve
15
Filter (Accessory)
5.2
Drainage valve
16
Check valve (Field supply)
5.3
Tbt1: Balance tank upper temperature sensor (Optional)
6
P_o: Zone A circulation pump (Field supply)
17
Shut-off valve (Field supply)
18
Filling valve (Field supply)
9
P_s: Solar pump (Field supply)
19
Drainage valve (Field supply)
9.1
Tsolar: Solar temperature sensor (Optional)
20
Tap water inlet pipe (Field supply)
9.2
Solar panel (Field supply)
21
Hot water tap (Field supply)
10
P_d: DHW pipe pump (Field supply)
11
T5: Domestic water tank temperature sensor (Accessory)
23
Collector/distributor (Field supply)
24
Bypass valve (Field supply)
12
T1: Water flow temperature sensor (Optional)
FHL1…n
Floor heating loop (Field supply)
13
Expansion vessel (Field supply)
AHS
Auxiliary heat source (Field supply)
Notes: 1. The example is just for application illustration; please confirm the exact installation method according to the installation manual.
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Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
5.1.1 Space heating The ON/OFF signal and operation mode and temperature setting are set on the user interface. P_o (6) keeps running as long as the unit is ON for space heating, SV1(4) keeps OFF.
5.1.2 Domestic water heating The ON/OFF signal and target tank water temperature (T5S) are set on the user interface. P_o (6) stops running as long as the unit is ON for domestic water heating, SV1(4) keeps ON.
5.1.3 AHS (auxiliary heat source) control The AHS function is set on the indoor unit 1) When the AHS is set to be valid only for heating mode, AHS can be turned on in the following ways: a. Turn on the AHS via BACKHEATER function on the user interface; b. AHS will be turned on automatically if initial water temperature is too low or target water temperature is too high at low ambient temperature. P_o (6) keeps running as long as the AHS is ON, SV1(4) keeps OFF. 2) When the AHS is set to be valid for heating mode and DHW mode. In heating mode, AHS control is same as part 1); In DHW mode, AHS will be turned on automatically when the initial domestic water temperature T5 is too low or the target domestic water temperature is too high at low ambient temperature. P_o (6) stops running, SV1(4) keeps ON. 3) When the AHS is set to be valid, M1M2 can be set to be valid on the user interface. In heating mode, AHS will be turned on if MIM2 dry contact closes. This function is invalid in DHW mode.
5.1.4 TBH (tank booster heater) control The TBH function is set on the user interface. 1 When the TBH is set to be valid, TBH can be turned on via TANKHEATER function on the user interface; In DHW mode, TBH will be turned on automatically when the initial domestic water temperature T5 is too low or the target domestic water temperature is too high at low ambient temperature. 2 When the TBH is set to be valid, M1M2 can be set to be valid on the user interface. TBH will be turned on if MIM2 dry contact closes.
5.1.5 Solar energy control Hydraulic module recognizes solar energy signal by judging Tsolar or receiving SL1SL2 signal from user interface. The recognition method can be set via SOLAR INPUT on the user interface. Please refer to 8.8.5 “For solar energy input signal” for wiring. 1 When Tsolar is set to be valid, Solar energy turns ON when Tsolar is high enough, P_s(9) starts running; Solar energy turns OFF when Tsolar is low, P_s (9) stops running. 2 When SL1SL2 control is set to be valid, Solar energy turns ON after receiving Solar kit signal from user interface, P_s (9) starts running; Without solar kit signal. Solar energy turns OFF, P_s (9) stops running. The room thermostats are not connected to the Mono unit but to a motorized valve. Each room’s temperature is regulated by the motorized valve on its water circuit. Domestic hot water is supplied from the domestic hot water tank connected to the Mono unit. A bypass valve is required.
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M thermal Arctic Mono
5.2 Application 2
ROOM THERMOSTAT Control for Space heating or cooling need to be set on the user interface. It can be set in three ways: MODE SET/ONE ZONE/DOUBLE ZONE. The indoor unit can be connected to a high voltage room thermostat and a low voltage room thermostat. A hydraulic adapter box can also be connected. Another six thermostats can be connected to the hydraulic adapter box. Please refer to “ROOM THERMOSTAT in installation manual” for wiring. 5.2.1 One zone control
Part 1 – General Information
Figure 1-5.2: Application 2-One zone control
Legend
1
Outdoor unit
17
Shut-off valve (Field supply)
3
User interface
18
Filling valve (Field supply)
5
Balance tank (Field supply)
19
Drainage valve (Field supply)
5.1
Automatic bleed valve
23
Collector/distributor (Field supply)
5.2
Drainage valve
25
Hydraulic adapter box (Optional)
6
P_o: Zone A circulation pump (Field supply)
RT 1…7
Low voltage room thermostat (Field supply)
13
Expansion vessel (Field supply)
RT8
High voltage room thermostat (Field supply )
15
Filter (Accessory)
FHL1…n
Floor heating loop (Field supply)
Notes: 1. The example is just for application illustration; please confirm the exact installation method according to the installation manual.
Space heating One zone control: the unit ON/OFF is controlled by the room thermostat, cooling or heating mode and outlet water temperature is set on the user interface. System is ON when any “HL” of all the thermostats closes. When all “HL” open, system turns OFF. The circulation pumps operation When the system is ON, which means any “HL” of all the thermostats closes, P_o(6) starts running; When the system is OFF, which means all “HL” close, P_o (6) stops running.
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M thermal Arctic Mono
5.2.2 Mode set control
Midea M thermal Arctic Mono Engineering Data Book
Figure 1-5.3: Application 2- Mode set control
Legend
1
Outdoor unit
17
Shut-off valve (Field supply)
3
User interface
18
Filling valve (Field supply)
5
Balance tank (Field supply)
19
Drainage valve (Field supply)
5.1
Automatic bleed valve
23
Collector/distributor (Field supply)
5.2
Drainage valve
24
Bypass valve (Field supply)
6
P_o: Zone A circulation pump (Field supply)
25
Hydraulic adapter box (Optional)
7
SV2: 3-way valve (Field supply)
RT 1…7
Low voltage room thermostat (Field supply)
13
Expansion vessel (Field supply)
RT8
High voltage room thermostat (Field supply )
15
Filter (Accessory)
FHL1…n
Floor heating loop (Field supply)
FCU1…n
Fan coil unit (Field supply)
Notes: 1. The example is just for application illustration; please confirm the exact installation method according to the installation manual.
Space heating Cooling or heating mode is set via the room thermostat, water temperature is set on the user interface. 1) When any “CL” of all the thermostats close, system will be set at cooling mode. 2) When any “HL” of all the thermostats close and all “CL” open, system will be set at heating mode. The circulation pumps operation 1) When the system is in cooling mode, which means any “CL” of all the thermostats closes, SV2(7) keeps OFF, P_o(6) starts running; 2) When the system is in heating mode, which means one or more “HL” close and all “CL” open, SV2(7) keeps ON, P_o(6) starts running.
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5.2.3 Double zone control
M thermal Arctic Mono
Part 1 – General Information
Figure 1-5.4: Application 2-Double zone control
Legend
1
Outdoor unit
17
Shut-off valve (Field supply)
3
User interface
17
Shut-off valve (Field supply)
5
Balance tank (Field supply)
18
Filling valve (Field supply)
5.1
Automatic bleed valve
19
Drainage valve (Field supply)
5.2
Drainage valve
23
Collector/distributor (Field supply)
6
P_o: Zone A circulation pump (Field supply)
25
Hydraulic adapter box (Optional)
8
Mixing station (Field supply)
RT 1…7
Low voltage room thermostat (Field supply)
8.1
SV3: Mixing valve (Field supply)
RT8
High voltage room thermostat (Field supply )
8.2
P_c: zone 2 circulation
FHL1…n
Floor heating loop (Field supply)
13
Expansion vessel (Field supply)
Tw2
Zone 2 water flow temperature sensor (Optional)
15
Filter (Accessory)
RAD.1…n
Radiator (Field supply)
Notes: 1. The example is just for application illustration; please confirm the exact installation method according to the installation manual.
Space heating Zone1 can operate in cooling mode or heating mode, while zone2 can only operate in heating mode; While installation, for all thermostats in zone1, only”HL”terminals need to be connected. For all thermostats in zone2, only”CL”terminals need to be connected. 1) The ON/OFF of zone1 is controlled by the room thermostats in zone1. When any “HL” of all thermostats in zone1 closes, zone1 turns ON. When all “HL” turn OFF, zone1 turns OFF; Target temperature and operation mode are set on the user interface; 2) In heating mode, the ON/OFF of zone2 is controlled by the room thermostats in zone2. When any “CL” of all thermostats in zone2 closes, zone2 turns ON. When all “CL” open, zone2 turns OFF. Target temperature is set on the user interface; Zone 2 can only operate in heating mode. When cooling mode is set on the user interface, zone2 keeps in OFF status.
The circulation pump operation When zone 1 is ON, P_o(6) starts running; When zone 1 is OFF, P_o(6) stops running; When zone 2 is ON, SV3(8.1) is ON, P_c(8.2) starts running; When zone 2 is OFF, SV3(8.1) is OFF, P_c(8.2) stops running . The floor heating loops require a lower water temperature in heating mode compared to radiators. To achieve these two set points, a mixing station is used to adapt the water temperature according to requirements of the floor heating loops. The radiators are directly connected to the unit water circuit and the floor heating loops are after the mixing station. The mixing station is controlled by the unit.
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M thermal Arctic Mono
5.3 Application 3 5.3.1 Group control
Midea M thermal Arctic Mono Engineering Data Book
Figure 1-5.5: Application 3- Parallel system control
Legend
1.1 Master unit
11.3 Coil 2: heat exchanger for heat pump
1.2…n Slave unit
12
Filter(Accessory)
2
User interface
13
Check valve (Field supply)
3
SV1: 3-way valve(Field supply)
14
Shut-off valve(Field supply)
4
Balance tank(Field supply)
17
Tap water inlet pipe(Field supply)
4.1 Automatic bleed valve
18
Hot water tap(Field supply)
4.2 Drainage valve
19
Collector/Distributor(Field supply)
4.3 Tbt1: Balance tank upper temperature sensor(optional)
20
Bypass valve(Field supply)
4.5 Filling valve
23
Mixing station(Field supply)
5
P_O: Outside circulation pump (Field supply)
23.1 SV3: Mixing valve(Field supply)
6
P_S: Solar pump(Field supply)
23.2 P_C: Zone B circulation pump(Field supply)
6.1 Tsolar: Solar temperature sensor(Optional)
24
Automatic bleed valve(Field supply)
6.2 Solar panel (Field supply)
25
Water manometer(Field supply)
7
P_D: DHW pipe pump(Field supply)
Tw2 Zone B water flow temperature sensor(Optional)
8
T5: Domestic water tank temperature sensor(Accessory)
RAD 1…n Radiator(Field supply)
9
Expansion vessel(Field supply)
FHL 1…n Floor heating loop(Field supply)
10
T1: Total water flow temperature sensor(Optional)
K
Contactor(Field supply)
11
Domestic water tank(Field supply)
ZONE 1 The space operate cooling or heating mode
11.1 TBH: Domestic water tank heater
ZONE 2 The space operate heating mode
11.2 Coil 1: heat exchanger for heat pump
AHS Auxiliary heat source(Field supply)
Notes: 1. The example is just for application illustration; please confirm the exact installation method according to the installation manual.
Modularity is perfect when an extension of capacity becomes required as the building cooling/heating demand evolves. 6 units can be controlled in group. The group control system can control and view the operation of the entire system only by connecting the master to the wire controller. If the DHW function is required, the water tank can only be connected to the master unit water circuit through a three-way valve, and controlled by the master unit. If AHS is needed, it can only be connected to the master waterway and controlled by the master unit. The Tbt1 temperature sensor must be installed in the parallel system (otherwise unit cannot be started). If the balance tank is too large, Tbt2 needs to be added in order to improve the control accuracy. Tbt2 is set in the lower part of the balance tank. The water inlet and outlet pipe joints of each unit of the parallel system should be connected with soft connections and one-way valves must be installed at the
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Part 1 – General Information
M thermal Arctic Mono
water outlet pipe. Space heating All salve units can operate in space heating mode. The operation mode and setting temperature are set on the user interface(2). Due to changes of the outdoor temperature and the required load indoors, multiple outdoor units may operate at different times. In cooling mode, SV3(23.1) and P_C(23.2) keep OFF, P_O(5) keeps ON; In heating mode, when both ZONE 1 and ZONE 2 work, P_C(23.2) and P_O(5) keeps ON, SV3(23.1) switches between ON and OFF according to the set Tw2. In heating mode, when only ZONE 1 works, P_O(5) keep ON, SV3(23.1) and P_C(23.2) keep OFF. In heating mode, when only ZONE 2 works, P_O(5) keep OFF, P_C(23.2) keep ON, SV3(23.1) switches between ON and OFF according to the set Tw2.
Domestic water heating Only master unit(1.1) can operate in DHW mode. T5S is set on the user interface(2). In DHW mode, SV1(3) keeps ON. When master unit operated in DHW mode, slave units can operate in space cooling/heating mode.
AHS control AHS should be set via the dip switches on main board; AHS is only controlled by master unit. When master unit operates in DHW mode, AHS can only be used for producing domestic hot water; when master unit operates in heating mode, AHS can only be used for heating mode. 1) When AHS is set valid only for heating mode, it will be turned on in following conditions: a. Turn on BACKUPHEATER function on user interface; b. Master unit operates in heating mode. When inlet water temperature is too low or ambient temperature is too low, the target leaving water temperature is too high, AHS will be turned on automatically. 2) When the AHS is set valid for heating mode and DHW mode. It will be turned on in following conditions: When master unit operates in heating mode, conditions of turning on AHS is same as 1); When master unit operates in heating mode, if T5 or ambient temperature is too low, target T5 temperature is too high, AHS will be turned on automatically. 3)When AHS is valid, and the operation of AHS is controlled by M1M2. When M1M2 closes, AHS is turned on. When master unit operates in DHW mode, AHS can not be turned on by closing M1M2.
TBH control TBH should be set via the dip switches on main board. TBH is only controlled by master unit. 1) When the TBH is set to be valid, TBH can be turned on via TANKHEATER function on the user interface; In DHW mode, TBH will be turned on automatically when the initial domestic water temperature T5 is too low or the target domestic water temperature is too high at low ambient temperature. 2) When the TBH is set to be valid, M1M2 can be set to be valid on the user interface. TBH will be turned on if MIM2 dry contact closes.
Solar energy control Solar energy is only controlled by master. Hydraulic module recognizes solar energy signal by judging Tsolar or receiving SL1SL2 signal from user interface. The recognition method can be set via SOLAR INPUT on the user interface. 1)When Tsolar is set to be valid, Solar energy turns ON when Tsolar is high enough, P_s starts running; Solar energy turns OFF when Tsolar is low, P_s stops running. 2)When SL1SL2 control is set to be valid, Solar energy turns ON after receiving Solar kit signal from user interface, P_s starts running; Without solar kit signal. Solar energy turns OFF, P_s stops running.
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Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
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Part 2 – Engineering Data
M thermal Arctic Mono
Part 2 Engineering Data
1 SPECIFICATIONS ………………………………………………………………………………………….. 18 2 ELECTRICAL CHARACTERISTICS ………………………………………………………………………. 30 3 DIMENSIONS AND CENTER OF GRAVITY ………………………………………………………….. 31 4 CAPACITY TABLES ………………………………………………………………………………………… 32 5 OPERATING LIMITS………………………………………………………………………………………. 60 6 HYDRONIC PERFORMANCE …………………………………………………………………………… 61 7 SOUND LEVELS……………………………………………………………………………………………. 63 8 ACCESSORIES ……………………………………………………………………………………………… 69
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MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
1 Specifications
Outdoor unit model name
Power supply
V/Ph/Hz
Capacity
kW
Heating A7W35
Rated input
kW
COP
Capacity
kW
Heating A7W45
Rated input
kW
COP
Capacity
kW
Heating A7W55
Rated input
kW
COP
Capacity
kW
Heating A-7W35
Rated input
kW
COP
Capacity
kW
Heating A-7W55
Rated input
kW
COP
Capacity
kW
Cooling A35W18
Rated input
kW
EER
Capacity
kW
Cooling A35W7
Rated input
kW
EER
Seasonal space heating Water outlet at 35C
energy efficiency class
Water outlet at 55C
Warmer climate
35C 55C
SCOP
Average climate
35C 55C
Colder climate
35C 55C
SEER Sound power Level2
Water outlet
7C 18C
dB
Rated water flow
m3/h
Water flow range
m3/h
Internal water volume
L
Compressor
Type
Outdoor fan
Motor type / Number of fans
Air side heat exchanger
Refrigerant
Unit dimension (W×H×D)
mm
Packing dimension (W×H×D)
mm
Net/Gross weight
kg
MHC-V4W/D2N8-B MHC-V6W/D2N8-B MHC-V8W/D2N8-B MHC-V10W/D2N8-B
220-240/1/50
4.20
6.35
8.40
10.0
0.82
1.28
1.63
2.02
5.10
4.95
5.15
4.95
4.30
6.30
8.10
10.0
1.13
1.70
2.10
2.67
3.80
3.70
3.85
3.75
4.40
6.00
7.50
9.50
1.49
2.03
2.36
3.06
2.95
2.95
3.18
3.10
4.70
6.00
7.00
8.00
1.52
2.00
2.19
2.62
3.10
3.00
3.20
3.05
4.00
5.15
6.15
6.85
2.05
2.58
3.00
3.43
1.95
2.00
2.05
2.00
4.50
6.50
8.30
9.90
0.82
1.35
1.64
2.18
5.50
4.80
5.05
4.55
4.70
7.00
7.45
8.20
1.36
2.33
2.22
2.52
3.45
3.00
3.35
3.25
A+++
A++
6.46
6.57
6.99
7.09
4.15
4.21
4.51
4.62
4.85
4.95
5.22
5.20
3.31
3.52
3.37
3.47
4.06
4.21
4.33
4.32
2.63
2.85
2.88
2.99
4.98
5.31
5.82
5.95
7.76
8.22
8.94
8.73
55
58
59
60
0.72
1.09
1.44
1.72
0.4~0.9
0.4~1.25
0.4~1.65
0.4~2.1
2.16~6.96
2.16~6.96
2.44-7.24
2.44-7.24
Twin rotary
DC fan / 1
DC fan / 1
Finned tube
1295×718×429 1375×885×475
R32 1.4kg
1385×865×523 1465×1035×560
86/107
105/132
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MBT Confidential
Cooling
C
Outdoor air
Heating
C
temperature range
DHW
C
M thermal Arctic Mono
-543
-2535
-2543
Water side heat exchanger
Plate type
Water side connection
R1 ”
R1 ”
R5/4″
R5/4″
Cooling
C
Water setting
Heating
C
temperature range
DHW3
C
525 2565 2060
Notes: 1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02.
2. Sound power test conditionEN12102-1
3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
19
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Outdoor unit model name
Heating A7W35
Power supply Capacity Rated input COP Capacity
Heating A7W45
Rated input
COP
Capacity
Heating A7W55
Rated input
COP
Capacity
Heating A-7W35
Rated input
Heating A-7W55
Cooling A35W18
Cooling A35W7 Seasonal space heating energy efficiency class
COP Capacity Rated input COP Capacity Rated input EER Capacity Rated input EER Water outlet at 35C Water outlet at 55C
Warmer climate
SCOP
Average climate
Colder climate
SEER
Sound power Level2 Rated water flow Water flow range Internal water volume Compressor
Outdoor fan
Air side heat exchanger Refrigerant Unit dimension (W×H×D) Packing dimension (W×H×D) Net/Gross weight Outdoor air temperature range
Water outlet
Type Motor type Number of fans
Cooling
V/Ph/Hz kW kW
kW kW
kW kW
kW kW
kW kW
kW kW
kW kW
MHC-V12W/D2N8-B
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
35C 55C 35C 55C 35C 55C 7C 18C dB m3/h m3/h L
6.48 4.43 4.81 3.45 4.08 3.02 4.93 7.13 65 2.08 0.7~2.5 2.78-7.58
mm mm kg C
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MBT Confidential
MHC-V14W/D2N8-B 220-240/1/50 14.5 3.15 4.60 14.1 3.92 3.60 13.8 4.68 2.95 12.00 4.21 2.85 11.00 5.37 2.05 13.50 3.74 3.61 12.4 4.96 2.50 A+++ A++ 6.58 4.49 4.72 3.47 4.07 3.05 4.87 6.94 65 2.49 0.7~2.75 2.78-7.58 Twin rotary DC fan 1 Finned tube R32 1.75kg 1385×865×523
1465×1035×560 129/155 -543
MHC-V16W/D2N8-B
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.2 3.94 3.61 14.0 5.60 2.50
6.29 4.48 4.62 3.41 4.02 3.12 4.69 6.75 68 2.73 0.7~3.0 2.78-7.58
Heating
C
DHW
C
M thermal Arctic Mono
-2535
-2543
Water side heat exchanger
Plate type
Water side connection
R5/4″
Cooling
C
Water setting temperature
Heating
C
range
DHW3
C
525 2565 2060
Notes:
1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02. 2. Sound power test conditionEN12102-1 3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
21
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Outdoor unit model name
Power supply
V/Ph/Hz
Capacity
kW
Heating A7W35
Rated input
kW
COP
Capacity
kW
Heating A7W45
Rated input
kW
COP
Capacity
kW
Heating A7W55
Rated input
kW
COP
Capacity
kW
Heating A-7W35
Rated input
kW
COP
Capacity
kW
Heating A-7W55
Rated input
kW
COP
Capacity
kW
Cooling A35W18
Rated input
kW
EER
Capacity
kW
Cooling A35W7
Rated input
kW
EER
Seasonal space heating energy efficiency class
Water outlet at 35C Water outlet at 55C
SCOP
SEER Sound power Level2 Rated water flow Water flow range
Warmer climate Average climate Colder climate Water outlet
35C 55C 35C 55C 35C 55C 7C 18C dB m3/h m3/h
Internal water volume
L
Compressor
Type
Outdoor fan
Motor type Number of fans
Air side heat exchanger
Refrigerant
Unit dimension (W×H×D)
mm
Packing dimension (W×H×D)
mm
Net/Gross weight
kg
Outdoor air temperature range
Cooling
C
MHC-V12W/D2RN8-B
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
6.47 4.42 4.81 3.45 4.08 3.02 4.90 7.07 65 2.08 0.7~2.5 2.78-7.58
MHC-V14W/D2RN8-B 380-415/3/50 14.5 3.15 4.60 14.1 3.92 3.60 13.8 4.68 2.95 12.00 4.21 2.85 11.00 5.37 2.05 13.50 3.74 3.61 12.4 4.96 2.50 A+++ A++ 6.57 4.49 4.72 3.47 4.07 3.05 4.85 6.89 65 2.49 0.7~2.75 2.78-7.58 Twin rotary DC fan 1 Finned tube R32 1.75kg 1385×865×523
1465×1035×560 144/172 -543
MHC-V16W/D2RN8-B
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.20 3.94 3.61 14.0 5.60 2.50
6.28 4.47 4.62 3.41 4.02 3.12 4.67 6.70 68 2.73 0.7~3.0 2.78-7.58
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MBT Confidential
Heating
C
DHW
C
M thermal Arctic Mono
-2535
-2543
Water side heat exchanger
Plate type
Water side connection
R5/4″
Cooling
C
525
Water setting temperature range Heating
C
2565
DHW3
C
2060
Notes:
1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02. 2. Sound power test conditionEN12102-1 3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
23
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
MHC-
Outdoor unit model name
V4W/D2N8-
BE30
Power supply V/Ph/Hz
220240/1/50
Capacity
kW
4.20
Heating A7W35 Rated input
kW
0.82
COP
5.10
Capacity
kW
4.30
Heating A7W45 Rated input
kW
1.13
COP
3.80
Capacity
kW
4.40
Heating A7W55 Rated input
kW
1.49
COP
2.95
Capacity
kW
4.70
Heating A-7W35 Rated input
kW
1.52
COP
3.10
Capacity
kW
4.00
Heating A-7W55 Rated input
kW
2.05
COP
1.95
Cooling A35W18
Capacity Rated input EER
kW
4.50
kW
0.82
5.50
Capacity
kW
4.70
Cooling A35W7 Rated input
kW
1.36
EER
3.45
Seasonal space Water outlet at 35C
heating energy efficiency class
Water outlet at 55C
35C
6.46
Warmer climate
55C
4.15
SCOP
35C
4.85
Average climate
55C
3.31
SEER
35C
4.06
Colder climate
55C
2.63
7C
4.98
Water outlet
18C
7.76
Sound power Level2
dB
55
Rated water flow
m3/h
0.72
Water flow range
m3/h
0.4~0.9
Internal water volume
L
3.31-8.11
Backup electric heater
Capacity Power supply
Compressor
Type
kW V/Ph/Hz
3
220-240 /1/50
Outdoor fan
Motor type / Number of fans
MHCV6W/D2N8-
BE30 220-240/1/50
6.35 1.28 4.95 6.30 1.70 3.70 6.00 2.03 2.95 6.00 2.00 3.00 5.15 2.58 2.00 6.50 1.35 4.80 7.00 2.33 3.00
6.57 4.21 4.95 3.52 4.21 2.85 5.31 8.22 58 1.09 0.4~1.25 3.31-8.11
3 220-240
/1/50
MHC-
MHC-
MHC-
MHC-
V8W/D2N8- V8W/D2N8- V10W/D2N8- V10W/D2N8-
BE30
BER90
BE30
BER90
220-
380-415/3/50
220-
380-415/3/50
240/1/50
240/1/50
8.40
8.40
10.0
10.0
1.63
1.63
2.02
2.02
5.15
5.15
4.95
4.95
8.10
8.10
10.0
10.0
2.10
2.10
2.67
2.67
3.85
3.85
3.75
3.75
7.50
7.50
9.50
9.50
2.36
2.36
3.06
3.06
3.18
3.18
3.10
3.10
7.00
7.00
8.00
8.00
2.19
2.19
2.62
2.62
3.20
3.20
3.05
3.05
6.15
6.15
6.85
6.85
3.00
3.00
3.43
3.43
2.05
2.05
2.00
2.00
8.30
8.30
9.90
9.90
1.64
1.64
2.18
2.18
5.05
5.05
4.55
4.55
7.45
7.45
8.20
8.20
2.22
2.22
2.52
2.52
3.35
3.35
3.25
3.25
A+++
A++
6.99
6.99
4.51
4.51
5.22
5.22
3.37
3.37
4.33
4.33
2.88
2.88
5.82
5.82
8.94
8.94
59
59
1.44
1.44
0.4~1.65
0.4~1.65
3.59-8.39
3.49-8.29
3
9
220-240
380-415
/1/50
/3/50
Twin rotary
7.09 4.62 5.20 3.47 4.32 2.99 5.95 8.73 59 1.44 0.4~1.65 3.59-8.39
3 220-240
/1/50
7.09 4.62 5.20 3.47 4.32 2.99 5.95 8.73 59 1.44 0.4~1.65 3.49-8.29
9 380-415
/3/50
DC fan / 1
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MBT Confidential
M thermal Arctic Mono
Air side heat exchanger
Finned tube
Refrigerant
Unit dimension (W×H×D)
mm
Packing dimension (W×H×D)
mm
1295×718×429 1375×885×475
R32 1.4kg
1385×865×523 1465×1035×560
Net/Gross weight
kg
Outdoor air
Cooling
C
temperature Heating
C
range
DHW
C
91/112
-543 -2535 -2543
110/137
Water side heat exchanger
Plate type
Water side connection
R1 ”
R1 ”
R5/4″
R5/4″
R5/4″
R5/4″
Water setting Cooling
C
525
temperature Heating
C
2565
range
DHW3
C
2060
Notes:
1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02. 2. Sound power test conditionEN12102-1 3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
25
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Outdoor unit model name
Power supply
V/Ph/Hz
Capacity
kW
Heating A7W35
Rated input
kW
COP
Capacity
kW
Heating A7W45
Rated input
kW
COP
Capacity
kW
Heating A7W55
Rated input
kW
COP
Capacity
kW
Heating A-7W35
Rated input
kW
COP
Capacity
kW
Heating A-7W55
Rated input
kW
COP
Capacity
kW
Cooling A35W18
Rated input
kW
EER
Capacity
kW
Cooling A35W7
Rated input
kW
EER
Seasonal space heating Water outlet at 35C
energy efficiency class Water outlet at 55C
Warmer climate
35C 55C
SCOP
Average climate
35C 55C
SEER
Colder climate Water outlet
35C 55C 7C 18C
Sound power Level2
dB
Rated water flow
m3/h
Water flow range
m3/h
Internal water volume
L
Backup electric heater
Capacity Power supply
kW V/Ph/Hz
Compressor
Type
Outdoor fan
Motor type Number of fans
Air side heat exchanger
Refrigerant
Unit dimension (W×H×D)
mm
MHC-V12W /D2N8-BE30 220-240/1/50
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
6.48 4.43 4.81 3.45 4.08 3.02 4.93 7.13 65 2.08 0.7~2.5 3.93-8.73
3 220240/1/50
MHC-V12W /D2N8-BER90 380-415/3/50
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
6.48 4.43 4.81 3.45 4.08 3.02 4.93 7.13 65 2.08 0.7~2.5 3.83-8.63
9 380415/3/50
MHC-V14W MHC-V14W
/D2N8-BE30 /D2N8-BER90
220-240/1/50 380-415/3/50
14.5
14.5
3.15
3.15
4.60
4.60
14.1
14.1
3.92
3.92
3.60
3.60
13.8
13.8
4.68
4.68
2.95
2.95
12.00
12.00
4.21
4.21
2.85
2.85
11.00
11.00
5.37
5.37
2.05
2.05
13.50
13.50
3.74
3.74
3.61
3.61
12.4
12.4
4.96
4.96
2.50
2.50
A+++
A++
6.58
6.58
4.49
4.49
4.72
4.72
3.47
3.47
4.07
4.07
3.05
3.05
4.87
4.87
6.94
6.94
65
65
2.49
2.49
0.7~2.75
0.7~2.75
3.93-8.73
3.83-8.63
3
9
220-
380-
240/1/50
415/3/50
Twin rotary
DC fan
1
Finned tube
R32 1.75kg 1385×865×523
MHC-V16W /D2N8-BE30 220-240/1/50
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.2 3.94 3.61 14.0 5.60 2.50
6.29 4.48 4.62 3.41 4.02 3.12 4.69 6.75 68 2.73 0.7~3.0 3.93-8.73
3 220240/1/50
MHC-V16W /D2N8-BER90 380-415/3/50
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.2 3.94 3.61 14.0 5.60 2.50
6.29 4.48 4.62 3.41 4.02 3.12 4.69 6.75 68 2.73 0.7~3.0 3.83-8.63
9 380415/3/50
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MBT Confidential
Packing dimension (W×H×D)
mm
M thermal Arctic Mono
1465×1035×560
Net/Gross weight
kg
Cooling
C
Outdoor air
Heating
C
temperature range
DHW
C
134/160 -543 -2535 -2543
Water side heat exchanger
Plate type
Water side connection
R5/4″
Cooling
C
Water setting
Heating
C
temperature range
DHW3
C
525 2565 2060
Notes:
1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02. 2. Sound power test conditionEN12102-1 3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
27
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Outdoor unit model name
MHC-V12W /D2RN8-BE30
Power supply
V/Ph/Hz
Capacity
kW
Heating A7W35
Rated input
kW
COP
Capacity
kW
Heating A7W45
Rated input
kW
COP
Capacity
kW
Heating A7W55
Rated input
kW
COP
Capacity
kW
Heating A-7W35
Rated input
kW
COP
Capacity
kW
Heating A-7W55
Rated input
kW
COP
Capacity
kW
Cooling A35W18
Rated input
kW
EER
Capacity
kW
Cooling A35W7
Rated input
kW
EER
Seasonal space heating Water outlet at 35C
energy efficiency class Water outlet at 55C
Warmer climate
35C 55C
SCOP
Average climate
35C 55C
SEER
Colder climate Water outlet
35C 55C 7C 18C
Sound power Level2
dB
Rated water flow
m3/h
Water flow range
m3/h
Internal water volume
L
Backup electric heater
Capacity Power supply
kW V/Ph/Hz
Compressor Outdoor fan Air side heat exchanger Refrigerant
Type Motor type Number of fans
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
6.47 4.42 4.81 3.45 4.08 3.02 4.90 7.07 65 2.08 0.7~2.5 3.93-8.73
3 220240/1/50
MHC-V12W /D2RN8BER90
12.1 2.44 4.95 12.3 3.32 3.70 11.9 3.90 3.05 10.00 3.33 3.00 9.80 4.78 2.05 12.00 3.04 3.95 11.5 4.18 2.75
6.47 4.42 4.81 3.45 4.08 3.02 4.90 7.07 65 2.08 0.7~2.5 3.83-8.63
9 380415/3/50
MHC-V14W /D2RN8-BE30
MHC-V14W /D2RN8BER90
380-415/3/50
14.5
14.5
3.15
3.15
4.60
4.60
14.1
14.1
3.92
3.92
3.60
3.60
13.8
13.8
4.68
4.68
2.95
2.95
12.00
12.00
4.21
4.21
2.85
2.85
11.00
11.00
5.37
5.37
2.05
2.05
13.50
13.50
3.74
3.74
3.61
3.61
12.4
12.4
4.96
4.96
2.50
2.50
A+++
A++
6.57
6.57
4.49
4.49
4.72
4.72
3.47
3.47
4.07
4.07
3.05
3.05
4.85
4.85
6.89
6.89
65
65
2.49
2.49
0.7~2.75
0.7~2.75
3.93-8.73
3.83-8.63
3
9
220-
380-
240/1/50
415/3/50
Twin rotary
DC fan
1
Finned tube
R32 1.75kg
28
MBT Confidential
MHC-V16W /D2RN8-BE30
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.2 3.94 3.61 14.0 5.60 2.50
6.28 4.47 4.62 3.41 4.02 3.12 4.67 6.70 68 2.73 0.7~3.0 3.93-8.73
3 220240/1/50
MHC-V16W /D2RN8BER90
15.9 3.53 4.50 16.0 4.57 3.50 16.0 5.61 2.85 13.10 4.85 2.70 12.50 6.25 2.00 14.2 3.94 3.61 14.0 5.60 2.50
6.28 4.47 4.62 3.41 4.02 3.12 4.67 6.70 68 2.73 0.7~3.0 3.83-8.63
9 380415/3/50
Unit dimension (W×H×D)
mm
Packing dimension (W×H×D)
mm
M thermal Arctic Mono
1385×865×523
1465×1035×560
Net/Gross weight
kg
Cooling
C
Outdoor air
Heating
C
temperature range
DHW
C
149/177 -543 -2535 -2543
Water side heat exchanger
Plate type
Water side connection
R5/4″
Cooling
C
Water setting
Heating
C
temperature range
DHW3
C
525 2565 2060
Notes:
1. Relevant EU standards and legislation: EN14511; EN14825; EN50564; EN12102; (EU) No 811/2013; (EU) No 813/2013; OJ 2014/C 207/02. 2. Sound power test conditionEN12102-1 3. Maximum domestic hot water temperature 60 is only available with TBH support.
Part 2 – Engineering Data
29
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Electrical characteristics
System
MHC-V4W/D2N8-B MHC-V6W/D2N8-B MHC-V8W/D2N8-B MHC-V10W/D2N8-B MHC-V12W/D2N8-B MHC-V14W/D2N8-B MHC-V16W/D2N8-B MHC-V12W/D2RN8-B MHC-V14W/D2RN8-B MHC-V16W/D2RN8-B MHC-V4W/D2N8-BE30 MHC-V6W/D2N8-BE30 MHC-V8W/D2N8-BE30 MHC-V8W/D2N8-BER90 MHC-V10W/D2N8-BE30 MHC-V10W/D2N8-BER90 MHC-V12W/D2N8-BE30 MHC-V12W/D2N8-BER90 MHC-V14W/D2N8-BE30 MHC-V14W/D2N8-BER90 MHC-V16W/D2N8-BE30 MHC-V16W/D2N8-BER90 MHC-V12W/D2RN8-BE30 MHC-V12W/D2RN8-BER90 MHC-V14W/D2RN8-BE30 MHC-V14W/D2RN8-BER90 MHC-V16W/D2RN8-BE30 MHC-V16W/D2RN8-BER90
Voltage (V)
220~240 220~240 220~240 220~240 220~240 220~240 220~240 380~415 380~415 380~415 220~240 220~240 220~240 380~415 220~240 380~415 220~240 380~415 220~240 380~415 220~240 380~415 380~415 380~415 380~415 380~415 380~415 380~415
Outdoor unit
Min. Hz
(V)
50
198
50
198
50
198
50
198
50
198
50
198
50
198
50
342
50
342
50
342
50
198
50
198
50
198
50
342
50
198
50
342
50
198
50
342
50
198
50
342
50
198
50
342
50
342
50
342
50
342
50
342
50
342
50
342
Max. (V) 264 264 264 264 264 264 264 456 456 456 264 264 264 456 264 456 264 456 264 456 264 456 456 456 456 456 456 456
Power current
MCA TOCA MFA
(A)
(A)
(A)
12
18
25
14
18
25
16
19
25
17
19
25
25
30
35
26
30
35
27
30
35
10
14
16
11
14
16
12
14
16
25
31
38
27
31
38
29
32
38
29
32
38
30
32
38
30
32
38
38
43
48
38
43
48
39
43
48
39
43
48
40
43
48
40
43
48
23
27
29
23
27
29
24
27
29
24
27
29
25
27
29
25
27
29
Compressor
MSC
RLA
(A)
(A)
/
11.5
/
13.5
/
14.5
/
15.5
/
23.5
/
24.5
/
25.5
/
9.15
/
10.15
/
11.15
/
11.5
/
13.5
/
14.5
/
14.5
/
15.5
/
15.5
/
23.5
/
23.5
/
24.5
/
24.5
/
25.5
/
25.5
/
9.15
/
9.15
/
10.15
/
10.15
/
11.15
/
11.15
Fan FLA
kW (A)
0.10 0.5 0.10 0.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.10 0.5 0.10 0.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5 0.17 1.5
Note MCA: Min. Circuit Amps. (A) TOCA: Total Over-current Amps. (A) MFA: Max. Fuse Amps. (A) MSC: Max. Starting Amps. (A) RLA: Rated Load Amps. (A)
The input Amps of compressor where MAX. Hz can operate for nominal cooling or heating test condition kW: Rated Motor Output FLA: Full Load Amps. (A)
30
MBT Confidential
Dimensions and Center of Gravity
4/6kW models
Figure 2-3.1: MHC-V4(6)W/D2N8-B(E30) dimensions and center of gravity (unit: mm)
M thermal Arctic Mono
Part 2 – Engineering Data
unitmm
Model
A
B
C
4/6kW
295
540
190
8/10/12/14/16kW models
Figure 2-3.2: MHC-V8(10)W/D2N8-B(E30/ER90) MHC-V12(14/16)W/D2(R)N8-B(E30/ER90) dimensions and center of gravity (unit: mm)
Model 8/10kW 12-16kW 1Ph 12-16kW 3Ph
A
B
330
580
290
605
200
605
MBT Confidential
unitmm C 280 245 245
31
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
4 Capacity Tables
4.1 Heating Capacity Tables (Test standardEN14511)
Table 2-4.1-1: Heating capacity for 4kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
2.05
1.18
1.74
1.80
1.22
1.48
1.71
1.32
1.29
1.53
1.30
1.18
1.37
1.25
1.10
-20
3.09
1.31
2.36
2.83
1.56
1.82
2.44
1.70
1.43
2.17
1.74
1.24
1.98
1.75
1.13
-15
3.60
1.19
3.03
3.41
1.22
2.78
3.25
1.36
2.39
2.93
1.49
1.97
2.50
1.60
1.56
-10
4.47
1.33
3.36
4.29
1.33
3.23
4.14
1.45
2.85
4.02
1.65
2.43
3.59
1.77
2.02
-7
5.11
1.39
3.67
5.03
1.43
3.51
4.99
1.65
3.01
4.67
1.73
2.70
4.54
1.98
2.29
-5
5.18
1.29
4.03
5.08
1.36
3.72
5.02
1.53
3.27
4.74
1.68
2.82
4.63
1.89
2.45
-2
5.14
1.18
4.36
5.01
1.25
3.99
4.91
1.41
3.47
4.70
1.58
2.97
4.77
1.80
2.65
0
5.41
1.07
5.06
5.27
1.21
4.34
5.10
1.36
3.74
4.92
1.55
3.18
5.04
1.74
2.89
2
5.63
1.07
5.28
5.44
1.21
4.51
5.28
1.36
3.87
5.18
1.55
3.35
5.25
1.77
2.97
5
5.99
1.07
5.58
5.75
1.18
4.85
5.68
1.31
4.33
5.59
1.48
3.77
5.60
1.71
3.27
7
6.38
1.03
6.17
6.22
1.15
5.40
6.26
1.26
4.96
6.26
1.42
4.41
5.96
1.63
3.67
10
6.37
0.99
6.43
6.03
1.07
5.66
6.07
1.16
5.22
5.91
1.28
4.63
6.05
1.55
3.90
12
6.22
0.95
6.59
5.90
1.01
5.83
5.93
1.10
5.42
5.98
1.23
4.85
6.15
1.51
4.06
14
6.12
0.92
6.66
5.80
0.98
5.92
5.84
1.06
5.51
5.99
1.21
4.95
6.17
1.49
4.14
15
6.03
0.90
6.71
5.72
0.96
5.98
5.75
1.03
5.59
6.00
1.19
5.04
6.20
1.47
4.21
19
5.90
0.83
7.14
5.74
0.87
6.60
5.77
0.99
5.83
6.06
1.12
5.39
6.14
1.34
4.57
20
5.86
0.81
7.24
5.74
0.85
6.75
5.77
0.98
5.88
6.08
1.11
5.48
6.12
1.31
4.66
25
5.70
0.72
7.91
5.77
0.80
7.21
5.81
0.94
6.15
5.91
0.98
6.06
6.05
1.15
5.25
30
5.78
0.69
8.41
5.84
0.78
7.48
5.78
0.86
6.71
5.89
0.92
6.39
6.02
1.07
5.62
35
5.85
0.65
8.96
5.90
0.76
7.77
5.97
0.82
7.27
5.86
0.87
6.77
5.99
0.99
6.05
40
6.30
0.58
10.84
6.38
0.67
9.51
6.36
0.74
8.57
6.33
0.80
7.88
6.38
0.93
6.86
43
6.57
0.54
12.20
6.67
0.62
10.80
6.59
0.69
9.50
6.62
0.77
8.63
6.61
0.89
7.39
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
1.85
1.75
1.06
1.56
1.59
0.98
1.38
1.49
0.93
/
/
/
/
/
/
-15
2.20
1.68
1.31
1.84
1.56
1.18
1.77
1.62
1.09
1.73
1.68
1.03
/
/
/
-10
3.28
1.81
1.81
2.63
1.68
1.56
2.74
1.76
1.56
2.81
1.80
1.56
/
/
/
-7
4.41
2.12
2.08
4.28
2.34
1.83
3.85
2.10
1.83
3.56
1.94
1.84
/
/
/
-5
4.56
2.02
2.26
4.41
2.26
1.95
4.06
2.10
1.93
3.83
2.00
1.92
/
/
/
-2
4.74
2.01
2.36
4.72
2.20
2.15
4.35
2.11
2.06
4.10
2.06
1.99
/
/
/
0
5.02
2.03
2.48
5.13
2.16
2.37
4.69
2.13
2.20
4.40
2.10
2.09
/
/
/
2
5.19
2.06
2.52
5.26
2.17
2.42
4.86
2.16
2.25
4.59
2.16
2.13
/
/
/
5
5.50
1.98
2.78
5.54
2.07
2.68
5.16
2.08
2.48
4.90
2.09
2.35
4.04
2.16
1.87
7
5.69
1.83
3.11
5.74
2.03
2.83
5.54
2.06
2.70
5.41
2.08
2.61
4.27
2.09
2.04
10
5.80
1.71
3.40
5.70
1.80
3.16
5.44
1.89
2.88
5.27
1.96
2.69
4.49
2.02
2.22
12
5.76
1.63
3.53
5.69
1.73
3.29
5.38
1.80
2.99
5.17
1.86
2.79
4.70
1.96
2.40
14
5.71
1.59
3.60
5.65
1.69
3.35
5.32
1.75
3.04
5.10
1.80
2.83
4.79
1.93
2.48
15
5.67
1.55
3.65
5.63
1.65
3.41
5.27
1.71
3.08
5.04
1.76
2.87
4.87
1.90
2.56
19
5.71
1.46
3.92
5.54
1.53
3.63
5.11
1.57
3.26
4.82
1.60
3.02
5.22
1.82
2.87
20
5.72
1.43
3.99
5.52
1.50
3.68
5.07
1.53
3.31
4.77
1.56
3.06
/
/
/
25
5.68
1.29
4.39
5.42
1.35
4.02
4.86
1.35
3.59
4.50
1.36
3.30
/
/
/
30
5.67
1.22
4.63
5.51
1.28
4.31
4.97
1.30
3.83
4.61
1.32
3.51
/
/
/
35
5.59
1.14
4.90
5.61
1.22
4.62
/
/
/
/
/
/
/
/
/
40
6.00
1.15
5.20
/
/
/
/
/
/
/
/
/
/
/
/
43
6.25
1.16
5.38
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
32
MBT Confidential
Part 2 – Engineering Data
Table 2-4.1-2: Heating capacity for 4kW models
Normal
LWT
DB
25
30
35
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
1.90
1.07
1.78
1.65
1.08
1.52
1.56
1.19
1.31
1.42
-20
2.82
1.15
2.45
2.57
1.38
1.86
2.20
1.49
1.48
1.98
-15
3.26
1.03
3.17
3.07
1.06
2.88
2.90
1.17
2.48
2.66
-10
4.00
1.11
3.60
3.92
1.15
3.40
3.82
1.30
2.95
3.60
-7
4.68
1.21
3.85
4.61
1.26
3.65
4.70
1.52
3.10
4.26
-5
4.69
1.11
4.22
4.62
1.19
3.86
4.37
1.28
3.41
4.21
-2
4.70
1.04
4.52
4.56
1.11
4.12
4.26
1.19
3.59
4.26
0
4.99
0.96
5.19
4.80
1.08
4.46
4.40
1.15
3.85
4.53
2
5.18
0.95
5.45
4.94
1.05
4.70
4.40
1.10
4.00
4.77
5
5.48
0.95
5.79
5.19
1.03
5.03
5.08
1.13
4.49
5.11
7
4.60
0.71
6.48
4.36
0.77
5.65
4.20
0.82
5.10
4.38
10
5.73
0.83
6.88
5.28
0.89
5.91
5.36
1.00
5.37
5.24
12
5.62
0.79
7.11
5.19
0.85
6.13
5.26
0.94
5.61
5.28
14
5.54
0.76
7.25
5.11
0.82
6.26
5.19
0.90
5.76
5.27
15
5.48
0.75
7.32
5.06
0.80
6.33
5.14
0.88
5.84
5.28
19
5.38
0.69
7.83
5.10
0.72
7.04
5.10
0.83
6.13
5.53
20
5.36
0.67
7.96
5.11
0.71
7.22
5.09
0.82
6.21
5.59
25
5.08
0.58
8.75
5.24
0.67
7.85
5.12
0.78
6.57
5.47
30
5.18
0.55
9.37
5.33
0.65
8.20
5.32
0.74
7.21
5.48
35
5.29
0.53
10.05
5.44
0.63
8.57
5.54
0.70
7.89
5.50
40
5.78
0.47
12.23
5.77
0.55
10.57
5.73
0.61
9.37
5.78
43
6.08
0.44
13.87
6.09
0.50
12.08
6.00
0.57
10.46
6.09
LWT
DB
50
55
58
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
/
/
/
/
/
/
/
/
/
/
-20
1.73
1.61
1.07
1.50
1.52
0.99
1.37
1.46
0.93
/
-15
1.96
1.46
1.34
1.69
1.41
1.20
1.64
1.49
1.10
1.61
-10
2.99
1.62
1.84
2.40
1.52
1.58
2.51
1.61
1.56
2.59
-7
4.12
1.93
2.14
4.00
2.05
1.95
3.49
1.84
1.89
3.15
-5
4.14
1.78
2.32
4.04
2.02
2.00
3.67
1.86
1.97
3.42
-2
4.22
1.75
2.41
4.19
1.87
2.23
3.84
1.83
2.10
3.63
0
4.41
1.75
2.52
4.43
1.78
2.49
4.09
1.82
2.25
3.87
2
5.03
1.96
2.56
5.10
2.08
2.45
4.46
1.96
2.28
4.04
5
4.53
1.59
2.86
4.56
1.66
2.75
4.39
1.74
2.52
4.28
7
4.54
1.37
3.32
4.40
1.49
2.95
4.32
1.56
2.77
4.27
10
5.20
1.51
3.45
4.96
1.54
3.23
4.89
1.66
2.94
4.84
12
5.17
1.42
3.65
4.98
1.47
3.38
4.86
1.58
3.07
4.78
14
5.13
1.36
3.76
4.96
1.43
3.47
4.81
1.53
3.15
4.72
15
5.11
1.33
3.83
4.96
1.40
3.53
4.79
1.50
3.19
4.68
19
5.24
1.26
4.15
4.90
1.30
3.78
4.66
1.39
3.34
4.50
20
5.27
1.25
4.23
4.89
1.27
3.84
4.63
1.37
3.38
4.45
25
5.30
1.13
4.68
4.89
1.16
4.23
4.52
1.22
3.70
4.28
30
5.45
1.10
4.97
5.01
1.10
4.56
4.65
1.17
3.97
4.41
35
5.42
1.02
5.30
5.14
1.04
4.92
/
/
/
/
40
5.66
1.00
5.67
/
/
/
/
/
/
/
43
5.94
1.01
5.90
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C )
HC: Total heating capacity (kW)
PI: Power input (kW)
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
1.20
1.19
1.28
1.18
1.09
1.57
1.26
1.83
1.61
1.14
1.31
2.02
2.22
1.40
1.59
1.45
2.49
3.25
1.59
2.05
1.52
2.81
4.30
1.83
2.35
1.42
2.96
4.20
1.65
2.54
1.39
3.06
4.27
1.56
2.74
1.40
3.23
4.46
1.49
3.00
1.39
3.44
5.10
1.70
3.00
1.32
3.86
4.82
1.41
3.42
0.95
4.64
4.30
1.13
3.80
1.09
4.83
5.48
1.35
4.05
1.03
5.11
5.60
1.33
4.22
1.00
5.27
5.62
1.30
4.31
0.98
5.38
5.67
1.30
4.37
0.96
5.79
5.64
1.18
4.77
0.95
5.89
5.63
1.16
4.88
0.83
6.55
5.67
1.02
5.53
0.79
6.97
5.67
0.95
5.97
0.74
7.43
5.70
0.88
6.47
0.66
8.70
5.89
0.80
7.38
0.63
9.60
6.15
0.77
8.01
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
1.56
1.03
/
/
/
1.67
1.55
/
/
/
1.68
1.87
/
/
/
1.75
1.95
/
/
/
1.81
2.01
/
/
/
1.86
2.09
/
/
/
1.87
2.16
/
/
/
1.81
2.37
3.30
1.68
1.96
1.61
2.65
3.54
1.64
2.16
1.76
2.74
3.67
1.56
2.35
1.67
2.86
3.86
1.50
2.57
1.61
2.93
3.93
1.46
2.69
1.58
2.97
4.03
1.45
2.77
1.48
3.05
4.39
1.40
3.13
1.45
3.07
/
/
/
1.28
3.34
/
/
/
1.23
3.57
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
33
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.1-3: Heating capacity for 4kW models
Minimum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
1.23
0.68
1.80
1.12
0.72
1.55
1.18
0.89
1.33
1.09
0.90
1.20
0.86
0.79
1.10
-20
1.73
0.69
2.50
1.53
0.80
1.90
1.42
0.94
1.51
1.39
1.08
1.29
1.23
1.07
1.15
-15
1.68
0.52
3.25
1.65
0.56
2.95
1.55
0.61
2.54
1.64
0.79
2.07
1.60
1.00
1.61
-10
1.65
0.45
3.70
1.75
0.50
3.50
1.71
0.56
3.04
2.09
0.82
2.56
2.17
1.04
2.09
-7
1.16
0.29
4.01
1.18
0.31
3.76
1.25
0.37
3.34
2.06
0.70
2.93
2.08
0.86
2.42
-5
1.36
0.31
4.38
1.36
0.34
3.98
1.42
0.40
3.51
2.06
0.67
3.07
2.16
0.83
2.60
-2
1.36
0.29
4.68
1.39
0.33
4.25
1.38
0.37
3.70
2.03
0.64
3.17
2.16
0.77
2.80
0
1.45
0.27
5.37
1.51
0.33
4.61
1.42
0.36
3.98
2.12
0.63
3.34
2.22
0.72
3.07
2
1.69
0.30
5.71
1.73
0.36
4.87
1.65
0.39
4.23
2.33
0.65
3.60
2.39
0.74
3.23
5
1.97
0.33
6.03
1.99
0.38
5.23
1.92
0.41
4.66
2.58
0.64
4.01
2.59
0.74
3.52
7
2.35
0.35
6.78
2.34
0.40
5.89
2.31
0.43
5.39
2.95
0.62
4.78
3.22
0.82
3.91
10
1.95
0.27
7.21
1.77
0.29
6.17
1.92
0.34
5.61
2.84
0.56
5.06
3.27
0.78
4.21
12
2.17
0.29
7.48
2.02
0.32
6.40
2.10
0.36
5.87
2.92
0.54
5.38
3.37
0.77
4.40
14
2.26
0.30
7.66
2.13
0.32
6.56
2.17
0.36
6.04
2.93
0.53
5.57
3.39
0.75
4.52
15
2.36
0.31
7.72
2.25
0.34
6.62
2.25
0.37
6.12
2.96
0.52
5.68
3.43
0.75
4.58
19
2.58
0.31
8.27
2.70
0.37
7.38
2.86
0.44
6.44
3.70
0.60
6.12
3.72
0.74
5.01
20
2.64
0.31
8.41
2.81
0.37
7.58
3.01
0.46
6.53
3.88
0.62
6.23
3.80
0.74
5.12
25
3.14
0.34
9.25
3.40
0.41
8.30
3.52
0.51
6.93
4.31
0.62
6.94
4.35
0.75
5.81
30
3.32
0.34
9.90
3.59
0.41
8.68
3.79
0.50
7.63
4.03
0.55
7.37
4.42
0.71
6.27
35
3.92
0.37
10.63
4.01
0.44
9.08
3.91
0.47
8.36
4.04
0.51
7.87
4.44
0.65
6.80
40
4.28
0.33
12.94
4.27
0.38
11.19
4.51
0.45
9.93
4.56
0.49
9.22
4.85
0.62
7.76
43
4.53
0.31
14.68
4.53
0.35
12.80
4.75
0.43
11.08
4.83
0.48
10.17
5.15
0.61
8.42
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
1.28
1.18
1.08
1.14
1.14
1.00
1.06
1.12
0.94
/
/
/
/
/
/
-15
1.52
1.12
1.36
1.25
1.00
1.25
1.24
1.10
1.13
1.23
1.17
1.05
/
/
/
-10
2.23
1.19
1.88
1.82
1.14
1.60
1.94
1.22
1.59
2.02
1.27
1.58
/
/
/
-7
2.05
0.94
2.18
1.88
0.93
2.02
2.09
1.09
1.91
2.22
1.16
1.91
/
/
/
-5
2.09
0.88
2.37
1.99
0.98
2.04
2.17
1.08
2.01
2.29
1.15
1.99
/
/
/
-2
2.14
0.85
2.51
2.08
0.92
2.26
2.30
1.07
2.14
2.44
1.19
2.05
/
/
/
0
2.24
0.84
2.68
2.21
0.88
2.51
2.45
1.07
2.29
2.61
1.22
2.14
/
/
/
2
2.39
0.87
2.75
2.48
0.95
2.61
2.68
1.12
2.39
2.81
1.25
2.24
/
/
/
5
2.58
0.88
2.94
2.79
0.99
2.81
2.95
1.14
2.59
3.05
1.25
2.44
2.33
1.14
2.04
7
3.22
0.95
3.40
3.65
1.16
3.15
3.59
1.24
2.91
3.56
1.30
2.75
2.71
1.19
2.26
10
3.19
0.90
3.54
3.60
1.07
3.35
3.56
1.16
3.05
3.53
1.24
2.85
2.87
1.17
2.44
12
3.30
0.87
3.78
3.85
1.09
3.53
3.71
1.17
3.17
3.62
1.24
2.93
2.99
1.12
2.68
14
3.33
0.85
3.93
3.94
1.08
3.64
3.76
1.16
3.25
3.64
1.22
2.99
3.02
1.07
2.81
15
3.37
0.84
4.01
4.05
1.10
3.70
3.83
1.17
3.28
3.68
1.23
3.00
3.07
1.06
2.90
19
3.59
0.83
4.35
3.77
0.95
3.97
3.48
1.00
3.50
3.29
1.03
3.18
3.27
1.00
3.27
20
3.65
0.82
4.44
3.70
0.92
4.04
3.40
0.96
3.55
3.19
0.99
3.23
/
/
/
25
4.31
0.88
4.92
3.89
0.87
4.44
3.52
0.91
3.89
3.28
0.93
3.52
/
/
/
30
4.39
0.84
5.22
4.10
0.85
4.79
3.73
0.89
4.17
3.48
0.93
3.76
/
/
/
35
4.47
0.80
5.57
4.38
0.85
5.18
/
/
/
/
/
/
/
/
/
40
4.86
0.82
5.96
/
/
/
/
/
/
/
/
/
/
/
/
43
5.19
0.84
6.20
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C )
HC: Total heating capacity (kW) PI: Power input (kW)
34
MBT Confidential
Part 2 – Engineering Data
M thermal Arctic Mono
Table 2-4.2-1: Heating capacity for 6kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
2.57
1.49
1.72
2.25
1.53
1.46
2.14
1.67
1.28
1.91
1.64
1.17
1.71
1.57
1.09
-20
3.64
1.56
2.34
3.34
1.86
1.80
2.88
2.03
1.42
2.56
2.08
1.23
2.33
2.08
1.12
-15
4.43
1.49
2.97
4.19
1.53
2.73
4.00
1.71
2.34
3.61
1.87
1.93
3.08
2.01
1.53
-10
5.75
1.69
3.41
5.50
1.84
2.99
5.11
1.99
2.57
4.83
2.18
2.22
4.64
2.24
2.07
-7
6.55
1.77
3.71
6.30
1.92
3.28
6.21
2.17
2.86
5.79
2.32
2.50
5.57
2.38
2.35
-5
6.54
1.64
3.98
6.32
1.79
3.52
6.25
2.02
3.09
5.97
2.18
2.74
5.84
2.30
2.54
-2
6.32
1.49
4.24
6.14
1.58
3.88
6.11
1.80
3.40
6.07
2.04
2.97
6.01
2.26
2.65
0
6.49
1.34
4.85
6.37
1.48
4.31
6.35
1.68
3.79
6.50
1.99
3.26
6.35
2.25
2.82
2
6.68
1.35
4.96
6.48
1.48
4.38
6.53
1.69
3.86
6.65
1.89
3.52
6.58
2.23
2.95
5
7.04
1.31
5.37
6.81
1.51
4.51
6.88
1.62
4.25
6.96
1.89
3.69
6.99
2.12
3.29
7
7.58
1.29
5.87
7.46
1.55
4.81
7.41
1.56
4.76
7.13
1.79
3.99
7.13
2.00
3.58
10
7.43
1.21
6.12
7.27
1.39
5.24
7.35
1.46
5.02
7.37
1.75
4.21
7.32
1.93
3.78
12
7.33
1.17
6.25
7.26
1.31
5.54
7.34
1.42
5.16
7.51
1.70
4.42
7.40
1.86
3.98
14
7.25
1.15
6.31
7.22
1.27
5.69
7.30
1.39
5.23
7.54
1.67
4.52
7.41
1.82
4.08
15
7.17
1.13
6.35
7.20
1.24
5.82
7.26
1.38
5.28
7.58
1.64
4.61
7.43
1.78
4.16
19
6.98
1.00
6.99
7.01
1.13
6.19
7.04
1.22
5.78
7.28
1.56
4.68
7.42
1.70
4.37
20
6.93
0.97
7.15
6.97
1.11
6.28
6.98
1.18
5.91
7.21
1.54
4.70
7.42
1.68
4.42
25
6.69
0.80
8.32
6.74
0.94
7.16
6.70
1.06
6.31
6.65
1.30
5.11
7.21
1.52
4.74
30
6.74
0.71
9.53
6.83
0.85
8.02
6.83
0.94
7.27
6.56
1.09
6.01
7.05
1.40
5.05
35
6.79
0.66
10.34
6.93
0.73
9.43
6.96
0.85
8.17
6.47
0.94
6.87
6.89
1.27
5.42
40
7.26
0.64
11.42
7.37
0.73
10.15
7.28
0.81
9.02
7.12
0.97
7.34
7.34
1.20
6.12
43
7.54
0.63
12.01
7.64
0.70
10.94
7.48
0.76
9.87
7.51
0.91
8.27
7.61
1.08
7.02
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
2.19
2.04
1.07
1.84
1.86
0.99
1.63
1.74
0.94
/
/
/
/
/
/
-15
2.70
2.02
1.34
2.26
1.88
1.20
2.18
1.96
1.11
2.13
2.02
1.05
/
/
/
-10
4.13
2.41
1.72
3.80
2.24
1.69
3.51
2.28
1.54
3.32
2.30
1.44
/
/
/
-7
5.29
2.63
2.01
5.22
2.66
1.96
4.83
2.63
1.84
4.57
2.61
1.75
/
/
/
-5
5.44
2.44
2.23
5.31
2.64
2.01
4.96
2.61
1.90
4.73
2.59
1.83
/
/
/
-2
5.59
2.38
2.35
5.31
2.60
2.04
5.05
2.58
1.96
4.88
2.57
1.90
/
/
/
0
5.88
2.37
2.48
5.42
2.59
2.09
5.21
2.56
2.03
5.06
2.54
1.99
/
/
/
2
6.05
2.38
2.54
5.69
2.36
2.41
5.48
2.50
2.19
5.33
2.61
2.05
/
/
/
5
6.37
2.27
2.81
6.11
2.46
2.48
5.89
2.50
2.36
5.74
2.53
2.27
4.92
2.68
1.84
7
6.87
2.16
3.17
6.90
2.37
2.91
6.61
2.46
2.69
6.42
2.52
2.55
5.25
2.60
2.02
10
7.01
2.09
3.35
6.93
2.28
3.04
6.53
2.35
2.78
6.27
2.41
2.60
5.57
2.52
2.21
12
7.15
2.03
3.52
6.99
2.20
3.18
6.50
2.27
2.86
6.17
2.32
2.65
5.86
2.45
2.39
14
7.19
1.99
3.60
6.98
2.15
3.24
6.44
2.22
2.91
6.09
2.27
2.68
5.98
2.41
2.48
15
7.24
1.97
3.67
6.98
2.12
3.30
6.40
2.18
2.94
6.01
2.23
2.70
6.10
2.39
2.56
19
7.27
1.84
3.95
6.84
1.93
3.54
6.33
1.97
3.21
5.98
2.00
2.99
6.60
2.30
2.88
20
7.28
1.81
4.02
6.81
1.89
3.60
6.31
1.92
3.28
5.98
1.95
3.06
/
/
/
25
7.33
1.66
4.43
6.63
1.66
4.00
6.22
1.67
3.73
5.94
1.67
3.55
/
/
/
30
6.91
1.40
4.92
6.60
1.57
4.21
6.25
1.57
3.98
6.01
1.57
3.83
/
/
/
35
6.49
1.24
5.21
6.57
1.48
4.45
/
/
/
/
/
/
/
/
/
40
6.93
1.22
5.68
/
/
/
/
/
/
/
/
/
/
/
/
43
7.19
1.21
5.96
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
35
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.2-2: Heating capacity for 6kW models
Normal
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
2.37
1.35
1.76
2.07
1.37
1.51
1.95
1.50
1.30
1.77
1.51
1.17
1.61
1.49
1.08
-20
3.33
1.37
2.43
3.04
1.65
1.85
2.60
1.78
1.46
2.34
1.87
1.25
2.16
1.92
1.13
-15
4.01
1.29
3.11
3.77
1.33
2.83
3.57
1.47
2.43
3.27
1.65
1.98
2.73
1.76
1.56
-10
5.15
1.43
3.61
4.89
1.57
3.12
4.51
1.69
2.66
4.33
1.91
2.27
4.21
2.01
2.10
-7
6.24
1.62
3.86
6.05
1.80
3.36
6.00
2.00
3.00
5.61
2.21
2.54
5.40
2.25
2.40
-5
5.94
1.42
4.17
5.89
1.62
3.63
5.72
1.79
3.19
5.65
1.97
2.87
5.50
2.11
2.61
-2
5.78
1.32
4.39
5.69
1.43
3.97
5.55
1.58
3.51
5.64
1.82
3.10
5.51
2.00
2.75
0
5.99
1.20
4.98
5.86
1.33
4.40
5.74
1.47
3.89
5.94
1.75
3.40
5.68
1.93
2.94
2
6.15
1.20
5.11
5.87
1.31
4.50
5.50
1.41
3.90
5.95
1.65
3.61
5.80
1.93
3.00
5
6.43
1.16
5.56
6.06
1.31
4.64
6.16
1.39
4.42
6.36
1.68
3.78
6.13
1.78
3.45
7
6.75
1.09
6.18
6.27
1.20
5.21
6.35
1.28
4.95
6.44
1.55
4.14
6.30
1.70
3.70
10
6.68
1.02
6.52
6.32
1.15
5.49
6.49
1.26
5.17
6.59
1.50
4.39
6.62
1.73
3.83
12
6.62
0.98
6.74
6.37
1.08
5.88
6.51
1.21
5.38
6.83
1.46
4.66
6.83
1.67
4.09
14
6.56
0.95
6.87
6.36
1.04
6.09
6.48
1.18
5.50
6.91
1.44
4.82
6.89
1.63
4.23
15
6.52
0.94
6.93
6.37
1.02
6.24
6.48
1.16
5.57
7.03
1.43
4.92
6.98
1.61
4.32
19
6.37
0.83
7.67
6.24
0.93
6.68
6.31
1.03
6.14
6.65
1.32
5.02
6.85
1.50
4.56
20
6.34
0.81
7.85
6.20
0.91
6.79
6.27
1.00
6.28
6.55
1.30
5.05
6.82
1.48
4.62
25
5.97
0.65
9.21
6.12
0.78
7.79
6.13
0.91
6.75
6.15
1.11
5.53
6.76
1.35
4.99
30
6.04
0.57
10.62
6.24
0.71
8.79
6.29
0.80
7.84
6.10
0.93
6.55
6.64
1.24
5.35
35
6.14
0.53
11.60
6.38
0.61
10.41
6.46
0.73
8.87
6.07
0.81
7.54
6.55
1.13
5.79
40
6.66
0.52
12.89
6.67
0.59
11.28
6.57
0.67
9.86
6.49
0.80
8.11
6.78
1.03
6.59
43
6.97
0.51
13.65
6.98
0.57
12.24
6.80
0.63
10.86
6.91
0.75
9.20
7.09
0.93
7.61
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
2.04
1.88
1.08
1.77
1.78
1.00
1.61
1.71
0.94
/
/
/
/
/
/
-15
2.41
1.76
1.37
2.08
1.70
1.22
2.02
1.80
1.12
1.98
1.88
1.05
/
/
/
-10
3.76
2.15
1.75
3.46
2.03
1.71
3.22
2.08
1.55
3.06
2.13
1.44
/
/
/
-7
5.07
2.45
2.07
5.15
2.58
2.00
4.63
2.47
1.87
4.28
2.39
1.79
/
/
/
-5
5.11
2.25
2.27
5.08
2.47
2.06
4.64
2.40
1.93
4.35
2.35
1.85
/
/
/
-2
5.17
2.17
2.39
5.06
2.44
2.07
4.69
2.37
1.98
4.44
2.32
1.91
/
/
/
0
5.36
2.12
2.53
5.15
2.44
2.11
4.80
2.35
2.04
4.56
2.29
1.99
/
/
/
2
5.73
2.18
2.63
5.65
2.31
2.45
5.25
2.36
2.23
4.99
2.40
2.08
/
/
/
5
5.91
2.04
2.89
5.80
2.28
2.54
5.45
2.28
2.39
5.22
2.28
2.29
4.23
2.21
1.91
7
6.13
1.86
3.29
6.00
2.03
2.95
5.79
2.10
2.76
5.64
2.17
2.60
4.40
2.06
2.14
10
6.47
1.88
3.44
6.04
1.94
3.11
5.87
2.07
2.83
5.76
2.17
2.65
4.54
1.94
2.34
12
6.64
1.82
3.66
6.12
1.87
3.27
5.86
1.99
2.94
5.70
2.09
2.73
4.81
1.88
2.56
14
6.69
1.77
3.78
6.12
1.82
3.36
5.83
1.94
3.01
5.63
2.03
2.77
4.91
1.83
2.68
15
6.76
1.75
3.86
6.15
1.80
3.42
5.81
1.91
3.04
5.59
2.00
2.79
5.04
1.82
2.77
19
6.82
1.63
4.18
6.06
1.64
3.69
5.77
1.76
3.29
5.58
1.85
3.02
5.55
1.77
3.14
20
6.84
1.61
4.25
6.03
1.60
3.76
5.76
1.72
3.35
5.58
1.82
3.07
/
/
/
25
7.01
1.49
4.72
5.99
1.43
4.20
5.79
1.51
3.83
5.65
1.57
3.59
/
/
/
30
6.64
1.26
5.28
6.00
1.35
4.46
5.85
1.42
4.13
5.75
1.47
3.91
/
/
/
35
6.29
1.12
5.63
6.02
1.27
4.75
/
/
/
/
/
/
/
/
/
40
6.53
1.06
6.19
/
/
/
/
/
/
/
/
/
/
/
/
43
6.84
1.05
6.54
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
36
MBT Confidential
Table 2-4.2-3: Heating capacity for 6kW models
Minimum
LWT
DB
25
30
35
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
1.54
0.86
1.78
1.39
0.91
1.53
1.48
1.12
1.32
1.36
-20
2.04
0.82
2.47
1.80
0.96
1.88
1.67
1.12
1.49
1.64
-15
2.07
0.65
3.18
2.03
0.70
2.90
1.90
0.76
2.49
2.02
-10
2.28
0.62
3.71
2.14
0.67
3.21
2.02
0.74
2.74
2.51
-7
1.57
0.39
4.03
1.45
0.41
3.50
1.48
0.48
3.06
2.49
-5
1.78
0.41
4.32
1.66
0.44
3.76
1.70
0.52
3.30
2.59
-2
1.71
0.38
4.55
1.68
0.41
4.13
1.69
0.46
3.63
2.69
0
1.74
0.34
5.15
1.82
0.40
4.58
1.77
0.44
4.02
2.93
2
2.01
0.38
5.35
2.06
0.44
4.69
2.04
0.48
4.22
3.04
5
2.31
0.40
5.78
2.32
0.48
4.82
2.33
0.51
4.59
3.21
7
2.71
0.42
6.44
2.65
0.49
5.37
2.73
0.51
5.32
3.36
10
2.27
0.33
6.83
2.08
0.36
5.75
2.32
0.43
5.42
3.32
12
2.56
0.36
7.08
2.47
0.40
6.19
2.60
0.46
5.67
3.48
14
2.68
0.37
7.25
2.64
0.41
6.43
2.71
0.47
5.82
3.53
15
2.81
0.38
7.31
2.83
0.43
6.59
2.84
0.48
5.89
3.60
19
3.06
0.38
8.10
3.30
0.47
7.06
3.53
0.54
6.50
4.35
20
3.12
0.38
8.30
3.41
0.48
7.18
3.70
0.56
6.65
4.54
25
3.68
0.38
9.73
3.97
0.48
8.24
4.22
0.59
7.15
4.85
30
3.88
0.35
11.23
4.20
0.45
9.30
4.47
0.54
8.30
4.49
35
4.55
0.37
12.27
4.71
0.43
11.02
4.57
0.49
9.40
4.46
40
4.93
0.36
13.64
4.94
0.41
11.94
5.17
0.49
10.45
5.12
43
5.20
0.36
14.44
5.20
0.40
12.96
5.39
0.47
11.51
5.48
LWT
DB
50
55
58
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
/
/
/
/
/
/
/
/
/
/
-20
1.51
1.38
1.09
1.34
1.34
1.01
1.25
1.31
0.95
/
-15
1.86
1.35
1.39
1.53
1.24
1.24
1.52
1.34
1.14
1.51
-10
2.80
1.57
1.78
2.63
1.51
1.74
2.48
1.57
1.58
2.38
-7
2.57
1.22
2.11
2.64
1.27
2.08
2.66
1.40
1.90
2.68
-5
2.59
1.10
2.35
2.81
1.33
2.11
2.75
1.39
1.98
2.72
-2
2.75
1.12
2.46
2.80
1.31
2.13
2.83
1.40
2.03
2.85
0
2.99
1.15
2.59
2.85
1.31
2.17
2.94
1.41
2.09
3.00
2
3.18
1.17
2.73
3.13
1.24
2.52
3.21
1.39
2.30
3.26
5
3.43
1.15
2.98
3.46
1.32
2.62
3.53
1.43
2.46
3.58
7
4.26
1.25
3.41
4.38
1.41
3.10
4.29
1.50
2.85
4.23
10
4.22
1.18
3.57
4.37
1.35
3.23
4.27
1.45
2.94
4.20
12
4.37
1.15
3.82
4.73
1.39
3.41
4.48
1.47
3.04
4.32
14
4.40
1.11
3.96
4.86
1.38
3.52
4.55
1.47
3.10
4.34
15
4.46
1.10
4.05
5.03
1.40
3.58
4.65
1.49
3.13
4.39
19
4.68
1.07
4.38
4.65
1.20
3.88
4.31
1.25
3.44
4.08
20
4.73
1.06
4.46
4.56
1.15
3.95
4.23
1.20
3.52
4.00
25
5.50
1.11
4.96
4.76
1.08
4.41
4.51
1.12
4.03
4.34
30
5.35
0.96
5.55
4.91
1.05
4.69
4.69
1.08
4.34
4.54
35
5.19
0.88
5.92
5.13
1.03
4.99
/
/
/
/
40
5.61
0.86
6.50
/
/
/
/
/
/
/
43
5.97
0.87
6.87
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
1.14
1.19
1.08
0.99
1.09
1.28
1.28
1.45
1.27
1.14
0.99
2.03
1.97
1.25
1.58
1.07
2.34
2.81
1.32
2.14
0.92
2.72
2.67
1.08
2.48
0.87
2.98
2.82
1.08
2.61
0.84
3.19
2.88
1.04
2.78
0.84
3.47
3.02
1.00
3.01
0.81
3.78
3.13
0.94
3.32
0.82
3.93
3.29
0.93
3.54
0.78
4.32
3.85
0.99
3.88
0.72
4.60
3.96
0.99
3.99
0.71
4.91
4.12
0.96
4.27
0.69
5.09
4.16
0.94
4.43
0.69
5.20
4.22
0.93
4.53
0.82
5.31
4.52
0.94
4.79
0.85
5.34
4.60
0.95
4.86
0.83
5.85
5.19
0.99
5.24
0.65
6.94
5.18
0.92
5.63
0.56
7.99
5.10
0.84
6.09
0.60
8.59
5.58
0.81
6.92
0.56
9.75
5.93
0.74
8.00
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
1.41
1.07
/
/
/
1.63
1.47
/
/
/
1.47
1.82
/
/
/
1.43
1.90
/
/
/
1.45
1.96
/
/
/
1.47
2.04
/
/
/
1.51
2.16
/
/
/
1.52
2.36
2.85
1.42
2.01
1.57
2.69
3.33
1.49
2.24
1.53
2.75
3.55
1.46
2.43
1.55
2.79
3.72
1.39
2.67
1.54
2.82
3.77
1.34
2.80
1.56
2.82
3.84
1.33
2.90
1.30
3.15
4.14
1.26
3.28
1.24
3.23
/
/
/
1.15
3.78
/
/
/
1.10
4.11
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
Part 2 – Engineering Data
37
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.3-1: Heating capacity for 8kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
4.45
1.98
2.25
4.00
2.04
1.96
3.59
2.19
1.64
3.34
2.15
1.55
2.81
2.17
1.30
-20
5.68
2.03
2.80
5.09
2.15
2.37
4.74
2.24
2.11
4.32
2.44
1.77
3.70
2.29
1.61
-15
6.90
2.07
3.34
6.44
2.24
2.87
6.11
2.51
2.43
5.57
2.47
2.26
5.29
2.65
2.00
-10
7.45
2.02
3.68
7.28
2.18
3.33
7.08
2.25
3.15
6.87
2.63
2.62
6.77
2.74
2.47
-7
7.64
2.03
3.76
7.47
2.20
3.40
7.27
2.29
3.17
7.05
2.64
2.67
6.94
2.76
2.52
-5
8.05
2.00
4.02
7.97
2.16
3.69
7.69
2.39
3.22
7.45
2.57
2.90
7.44
2.77
2.69
-2
5.03
1.18
4.25
4.94
1.27
3.89
4.96
1.39
3.57
5.61
1.82
3.08
5.67
2.04
2.78
0
8.55
1.79
4.77
8.49
2.01
4.23
8.42
2.23
3.77
8.40
2.53
3.32
8.09
2.75
2.94
2
8.66
1.67
5.20
8.65
1.92
4.50
8.48
2.14
3.95
8.50
2.50
3.40
8.31
2.74
3.04
5
9.03
1.52
5.95
8.95
1.81
4.94
8.86
1.94
4.56
8.78
2.29
3.84
8.69
2.57
3.38
7
9.51
1.45
6.54
9.20
1.73
5.32
9.11
1.80
5.07
8.85
2.12
4.18
8.98
2.35
3.82
10
10.06
1.35
7.44
9.28
1.59
5.84
8.94
1.65
5.42
8.70
2.02
4.30
8.74
2.24
3.90
12
10.00
1.23
8.13
9.37
1.45
6.48
9.05
1.58
5.74
8.92
1.89
4.72
8.86
2.14
4.15
14
9.92
1.16
8.53
9.38
1.37
6.83
9.06
1.53
5.93
8.99
1.81
4.96
8.88
2.07
4.30
15
9.86
1.12
8.79
9.39
1.33
7.09
9.09
1.51
6.04
9.07
1.77
5.12
8.91
2.03
4.38
19
9.69
0.98
9.87
9.48
1.17
8.08
9.28
1.35
6.88
9.69
0.98
9.87
9.05
1.85
4.89
20
9.65
0.95
10.14
9.51
1.14
8.33
9.33
1.32
7.09
9.45
1.59
5.93
9.08
1.81
5.02
25
9.42
0.90
10.44
9.00
1.03
8.75
8.75
1.15
7.64
9.15
1.44
6.34
9.01
1.55
5.80
30
9.18
0.83
11.03
8.49
0.93
9.16
8.17
1.05
7.78
8.85
1.29
6.84
8.93
1.43
6.23
35
9.55
0.84
11.31
8.83
0.93
9.45
8.50
1.06
8.05
9.20
1.31
7.05
9.29
1.46
6.34
40
10.03
0.87
11.57
9.27
0.93
10.02
8.92
1.05
8.49
9.66
1.32
7.31
9.75
1.51
6.46
43
10.33
0.84
12.25
9.55
0.85
11.27
9.19
1.01
9.11
9.95
1.27
7.86
10.04
1.47
6.83
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
3.17
2.26
1.41
2.62
2.10
1.25
2.28
1.98
1.15
/
/
/
/
/
/
-15
4.67
2.70
1.73
4.94
2.92
1.69
4.37
2.87
1.52
3.99
2.84
1.41
/
/
/
-10
6.32
2.88
2.20
6.07
3.05
1.99
5.54
2.94
1.88
5.19
2.86
1.81
/
/
/
-7
6.48
2.89
2.24
6.22
3.07
2.03
5.68
2.96
1.92
5.32
2.88
1.85
/
/
/
-5
7.35
2.99
2.46
6.45
2.94
2.19
6.20
2.97
2.09
6.04
3.00
2.02
/
/
/
-2
5.68
2.24
2.54
5.28
2.35
2.24
5.18
2.44
2.12
5.11
2.51
2.04
/
/
/
0
8.11
2.95
2.75
7.10
2.99
2.38
6.95
3.09
2.25
6.85
3.16
2.17
/
/
/
2
8.18
2.90
2.82
7.26
2.83
2.56
7.05
3.01
2.34
6.91
3.14
2.20
/
/
/
5
8.30
2.76
3.00
7.56
2.74
2.76
7.29
2.82
2.58
7.11
2.89
2.46
3.89
3.27
1.19
7
8.43
2.66
3.17
7.80
2.50
3.12
7.47
2.59
2.88
7.24
2.66
2.72
4.08
3.00
1.36
10
8.28
2.42
3.42
8.20
2.48
3.31
7.78
2.61
2.98
7.50
2.72
2.76
5.59
2.65
2.11
12
8.38
2.33
3.60
8.29
2.41
3.44
7.89
2.52
3.13
7.62
2.60
2.93
5.67
2.52
2.25
14
8.39
2.26
3.72
8.30
2.36
3.52
7.91
2.45
3.23
7.64
2.52
3.03
5.69
2.43
2.34
15
8.41
2.23
3.77
8.32
2.34
3.55
7.93
2.43
3.27
7.68
2.49
3.09
5.71
2.39
2.39
19
8.51
2.06
4.13
8.41
2.16
3.89
8.06
2.25
3.59
7.82
2.31
3.39
5.79
2.25
2.58
20
8.53
2.02
4.22
8.43
2.12
3.97
8.09
2.21
3.66
7.86
2.27
3.46
/
/
/
25
8.61
1.87
4.61
8.09
1.90
4.25
7.71
1.96
3.93
7.46
2.01
3.72
/
/
/
30
8.68
1.74
4.99
7.84
1.73
4.53
7.38
1.76
4.20
7.07
1.78
3.98
/
/
/
35
9.03
1.73
5.21
8.16
1.80
4.72
/
/
/
/
/
/
/
/
/
40
9.48
1.74
5.46
/
/
/
/
/
/
/
/
/
/
/
/
43
9.77
1.61
6.08
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
38
MBT Confidential
Part 2 – Engineering Data
Table 2-4.3-2: Heating capacity for 8kW models
Normal
LWT
DB
25
30
35
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
4.11
1.79
2.29
3.68
1.82
2.03
3.27
1.96
1.67
3.10
-20
5.20
1.79
2.90
4.63
1.90
2.43
4.27
1.97
2.17
3.96
-15
6.24
1.79
3.49
5.80
1.95
2.98
5.45
2.15
2.53
5.04
-10
6.66
1.71
3.89
6.48
1.86
3.49
6.25
1.92
3.26
6.16
-7
7.27
1.83
3.97
7.11
2.01
3.53
7.00
2.19
3.20
6.71
-5
7.25
1.71
4.25
7.21
1.89
3.81
6.99
2.12
3.30
6.86
-2
7.59
1.77
4.28
7.62
1.92
3.97
7.45
2.12
3.51
7.40
0
7.60
1.55
4.89
7.78
1.79
4.34
7.67
1.98
3.88
7.74
2
7.77
1.45
5.36
7.85
1.69
4.64
7.10
1.73
4.10
7.80
5
8.09
1.31
6.17
8.08
1.58
5.13
8.08
1.71
4.73
8.03
7
8.60
1.26
6.84
8.21
1.47
5.57
8.40
1.63
5.15
8.00
10
9.05
1.14
7.93
8.12
1.33
6.12
7.89
1.41
5.58
7.77
12
9.03
1.03
8.78
8.25
1.20
6.87
8.03
1.34
5.99
8.02
14
8.98
0.97
9.26
8.26
1.13
7.30
8.05
1.29
6.23
8.09
15
8.96
0.93
9.59
8.32
1.09
7.60
8.11
1.27
6.37
8.20
19
8.85
0.82
10.83
8.43
0.97
8.72
8.32
1.14
7.30
8.85
20
8.82
0.79
11.14
8.46
0.94
9.00
8.37
1.11
7.53
8.58
25
8.39
0.73
11.55
8.17
0.86
9.52
8.01
0.98
8.18
8.47
30
8.23
0.67
12.29
7.75
0.77
10.04
7.52
0.90
8.39
8.24
35
8.63
0.68
12.68
8.13
0.78
10.43
7.89
0.90
8.74
8.64
40
9.20
0.70
13.06
8.39
0.75
11.13
8.04
0.87
9.28
8.81
43
9.56
0.69
13.92
8.72
0.69
12.61
8.36
0.83
10.03
9.16
LWT
DB
50
55
58
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
/
/
/
/
/
/
/
/
/
/
-20
2.96
2.08
1.42
2.52
2.00
1.25
2.25
1.95
1.15
/
-15
4.16
2.36
1.76
4.55
2.65
1.72
4.05
2.64
1.53
3.72
-10
5.75
2.58
2.23
5.53
2.75
2.01
5.08
2.69
1.89
4.78
-7
6.17
2.67
2.31
6.15
3.00
2.05
5.50
2.82
1.95
5.07
-5
6.59
2.61
2.52
6.06
2.72
2.23
5.71
2.70
2.12
5.48
-2
7.28
2.78
2.61
6.32
2.77
2.29
6.14
2.84
2.16
6.01
0
7.39
2.64
2.79
6.33
2.63
2.41
6.15
2.72
2.26
6.03
2
7.37
2.53
2.91
7.10
2.73
2.60
6.54
2.73
2.39
6.16
5
7.50
2.43
3.09
6.68
2.37
2.82
6.40
2.44
2.62
6.21
7
7.53
2.29
3.29
7.50
2.36
3.18
6.75
2.30
2.94
6.25
10
7.65
2.18
3.51
7.14
2.11
3.38
6.99
2.30
3.04
6.89
12
7.78
2.08
3.74
7.26
2.05
3.54
7.13
2.21
3.22
7.04
14
7.80
2.01
3.88
7.28
2.00
3.64
7.15
2.15
3.33
7.07
15
7.85
1.98
3.96
7.33
1.99
3.68
7.21
2.13
3.39
7.13
19
7.98
1.83
4.37
7.44
1.84
4.05
7.36
2.00
3.67
7.30
20
8.01
1.79
4.47
7.47
1.80
4.14
7.39
1.98
3.74
7.34
25
8.23
1.68
4.91
7.31
1.64
4.47
7.19
1.78
4.05
7.10
30
8.35
1.56
5.36
7.13
1.49
4.80
6.91
1.59
4.35
6.77
35
8.75
1.55
5.63
7.48
1.49
5.03
/
/
/
/
40
8.94
1.50
5.95
/
/
/
/
/
/
/
43
9.28
1.39
6.67
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
1.99
1.56
2.64
2.05
1.29
2.20
1.80
3.43
2.11
1.62
2.18
2.32
4.69
2.31
2.03
2.30
2.68
6.14
2.46
2.50
2.40
2.79
6.60
2.59
2.55
2.28
3.01
6.79
2.47
2.75
2.39
3.10
7.20
2.54
2.84
2.30
3.37
7.16
2.35
3.05
2.21
3.54
7.40
2.28
3.25
2.04
3.93
7.62
2.15
3.54
1.84
4.34
8.10
2.10
3.85
1.74
4.48
7.91
2.00
3.95
1.61
4.98
8.06
1.89
4.26
1.54
5.26
8.09
1.82
4.44
1.50
5.46
8.15
1.79
4.55
0.82
10.83
8.32
1.63
5.11
1.35
6.37
8.36
1.59
5.25
1.23
6.86
8.44
1.38
6.11
1.11
7.46
8.42
1.27
6.61
1.12
7.74
8.83
1.30
6.77
1.09
8.08
9.01
1.30
6.95
1.05
8.74
9.36
1.26
7.40
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
2.64
1.41
/
/
/
2.65
1.81
/
/
/
2.69
1.89
/
/
/
2.69
2.04
/
/
/
2.89
2.08
/
/
/
2.78
2.17
/
/
/
2.74
2.25
/
/
/
2.50
2.49
3.32
2.72
1.22
2.25
2.77
3.44
2.46
1.40
2.45
2.81
4.92
2.27
2.16
2.34
3.01
5.08
2.19
2.32
2.26
3.12
5.12
2.13
2.41
2.24
3.19
5.19
2.11
2.46
2.14
3.42
5.48
2.05
2.67
2.11
3.47
/
/
/
1.89
3.76
/
/
/
1.67
4.06
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
39
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.3-3: Heating capacity for 8kW models
Minimum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
2.67
1.15
2.33
2.48
1.21
2.06
2.48
1.46
1.69
2.37
1.50
1.58
1.77
1.37
1.29
-20
3.18
1.08
2.96
2.75
1.11
2.48
2.75
1.24
2.22
2.76
1.51
1.83
2.29
1.40
1.64
-15
3.22
0.90
3.58
3.12
1.03
3.05
2.91
1.12
2.59
3.12
1.31
2.37
3.38
1.64
2.06
-10
2.96
0.74
4.01
2.84
0.79
3.59
2.80
0.84
3.35
3.57
1.30
2.76
4.10
1.61
2.55
-7
1.83
0.45
4.09
1.72
0.47
3.63
1.82
0.53
3.44
3.12
1.07
2.90
3.41
1.28
2.67
-5
2.19
0.50
4.37
2.09
0.53
3.94
2.17
0.63
3.44
3.23
1.03
3.15
3.60
1.27
2.84
-2
5.26
1.15
4.59
5.20
1.24
4.18
5.16
1.41
3.66
5.72
1.76
3.24
5.87
2.02
2.91
0
2.21
0.44
5.06
2.44
0.54
4.49
2.37
0.59
4.01
3.62
1.04
3.48
3.57
1.14
3.12
2
2.54
0.45
5.62
2.75
0.57
4.86
2.69
0.62
4.37
3.80
1.05
3.63
3.80
1.15
3.31
5
2.90
0.45
6.41
3.10
0.58
5.32
3.06
0.62
4.91
4.05
0.99
4.08
4.09
1.12
3.64
7
3.40
0.48
7.14
3.46
0.60
5.81
3.36
0.61
5.54
4.17
0.92
4.53
4.85
1.17
4.15
10
3.08
0.37
8.30
2.72
0.42
6.41
2.83
0.48
5.85
3.92
0.83
4.70
4.73
1.15
4.11
12
3.49
0.38
9.23
3.22
0.45
7.23
3.21
0.51
6.30
4.08
0.78
5.24
4.86
1.09
4.44
14
3.67
0.38
9.75
3.45
0.45
7.69
3.37
0.51
6.57
4.13
0.74
5.55
4.88
1.05
4.64
15
3.86
0.38
10.12
3.69
0.46
8.03
3.55
0.53
6.73
4.20
0.73
5.76
4.94
1.04
4.77
19
4.25
0.37
11.44
4.46
0.48
9.22
4.67
0.60
7.73
4.25
0.37
11.44
5.49
1.02
5.36
20
4.34
0.37
11.77
4.66
0.49
9.52
4.94
0.62
7.98
5.95
0.88
6.74
5.63
1.02
5.51
25
5.18
0.42
12.21
5.31
0.53
10.07
5.51
0.64
8.66
6.68
0.92
7.26
6.48
1.01
6.42
30
5.28
0.41
12.99
5.22
0.49
10.63
5.35
0.60
8.88
6.06
0.77
7.89
6.56
0.94
6.95
35
6.40
0.48
13.42
6.00
0.54
11.04
5.58
0.60
9.26
6.35
0.77
8.20
6.87
0.96
7.12
40
6.82
0.49
13.82
6.21
0.53
11.79
6.34
0.64
9.84
6.96
0.81
8.56
7.41
1.01
7.31
43
7.13
0.48
14.73
6.49
0.49
13.35
6.62
0.62
10.63
7.27
0.78
9.26
7.83
1.01
7.78
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
2.19
1.52
1.44
1.91
1.51
1.27
1.74
1.49
1.17
/
/
/
/
/
/
-15
3.22
1.80
1.79
3.36
1.92
1.75
3.04
1.96
1.56
2.84
1.99
1.43
/
/
/
-10
4.29
1.88
2.28
4.20
2.05
2.05
3.91
2.03
1.93
3.72
2.02
1.84
/
/
/
-7
3.38
1.44
2.35
3.57
1.67
2.13
3.48
1.73
2.01
3.42
1.78
1.92
/
/
/
-5
3.78
1.46
2.59
3.65
1.59
2.30
3.68
1.69
2.18
3.71
1.77
2.09
/
/
/
-2
5.90
2.20
2.69
5.40
2.23
2.42
5.33
2.37
2.25
5.29
2.47
2.14
/
/
/
0
4.12
1.44
2.86
3.80
1.54
2.47
3.96
1.71
2.32
4.06
1.83
2.22
/
/
/
2
4.26
1.41
3.02
4.01
1.51
2.66
4.13
1.67
2.47
4.21
1.80
2.34
/
/
/
5
4.47
1.41
3.18
4.28
1.47
2.91
4.37
1.62
2.70
4.43
1.73
2.56
2.47
1.99
1.24
7
5.23
1.54
3.40
4.95
1.49
3.33
4.84
1.59
3.05
4.76
1.66
2.87
2.69
1.89
1.42
10
4.99
1.37
3.65
5.17
1.47
3.51
5.08
1.61
3.16
5.02
1.72
2.92
3.80
1.72
2.22
12
5.12
1.31
3.91
5.61
1.52
3.69
5.45
1.64
3.33
5.35
1.74
3.08
3.84
1.62
2.37
14
5.14
1.27
4.06
5.78
1.52
3.80
5.59
1.63
3.43
5.46
1.72
3.18
3.82
1.55
2.47
15
5.19
1.25
4.15
5.99
1.55
3.86
5.76
1.66
3.48
5.60
1.74
3.23
3.82
1.52
2.52
19
5.47
1.19
4.58
5.72
1.34
4.25
5.49
1.43
3.84
5.33
1.49
3.57
3.85
1.40
2.74
20
5.55
1.18
4.69
5.65
1.30
4.35
5.42
1.38
3.93
5.26
1.44
3.65
/
/
/
25
6.46
1.25
5.16
5.81
1.24
4.69
5.59
1.31
4.25
5.45
1.38
3.96
/
/
/
30
6.73
1.20
5.63
5.83
1.16
5.04
5.53
1.21
4.58
5.34
1.25
4.27
/
/
/
35
7.22
1.22
5.92
6.36
1.20
5.29
/
/
/
/
/
/
/
/
/
40
7.68
1.23
6.25
/
/
/
/
/
/
/
/
/
/
/
/
43
8.11
1.16
7.01
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
40
MBT Confidential
M thermal Arctic Mono
Table 2-4.4-1: Heating capacity for 10kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
4.68
2.06
2.27
4.21
2.12
1.98
3.78
2.28
1.66
3.52
2.24
1.57
2.96
2.26
1.31
-20
5.98
2.12
2.82
5.35
2.24
2.39
4.98
2.34
2.13
4.55
2.55
1.79
3.89
2.39
1.63
-15
7.26
2.15
3.37
6.78
2.34
2.90
6.43
2.62
2.46
5.86
2.57
2.28
5.57
2.76
2.02
-10
8.37
2.33
3.60
8.14
2.53
3.22
7.89
2.65
2.98
7.64
2.86
2.67
7.38
3.10
2.38
-7
8.72
2.29
3.81
8.48
2.49
3.41
8.31
2.77
3.00
7.96
2.81
2.83
7.68
3.05
2.52
-5
9.00
2.19
4.10
8.86
2.47
3.60
8.80
2.64
3.33
8.46
2.94
2.88
8.18
3.09
2.65
-2
5.59
1.29
4.34
5.47
1.44
3.81
5.59
1.58
3.53
6.22
2.01
3.09
6.24
2.28
2.74
0
9.43
1.93
4.90
9.36
2.31
4.05
9.46
2.52
3.76
9.25
2.93
3.16
8.89
3.10
2.87
2
9.72
1.88
5.18
9.57
2.21
4.34
9.72
2.48
3.93
9.58
2.86
3.35
9.24
3.07
3.01
5
10.24
1.79
5.72
10.07
2.10
4.80
10.13
2.25
4.51
10.10
2.64
3.83
9.79
2.88
3.40
7
10.49
1.77
5.94
10.28
1.97
5.21
10.32
2.09
4.93
10.45
2.50
4.18
10.28
2.76
3.72
10
11.20
1.59
7.04
10.41
1.85
5.64
10.03
1.96
5.13
9.94
2.38
4.17
9.87
2.69
3.67
12
11.36
1.50
7.58
10.56
1.74
6.08
10.17
1.84
5.53
10.08
2.24
4.49
10.01
2.53
3.95
14
11.38
1.44
7.90
10.59
1.67
6.33
10.20
1.77
5.76
10.10
2.16
4.68
10.04
2.44
4.12
15
11.42
1.41
8.10
10.62
1.64
6.49
10.23
1.73
5.90
10.13
2.11
4.80
10.07
2.39
4.22
19
10.93
1.23
8.86
10.73
1.40
7.67
10.58
1.61
6.56
10.57
1.93
5.49
10.24
2.16
4.73
20
10.81
1.19
9.05
10.76
1.35
7.96
10.67
1.59
6.72
10.68
1.89
5.66
10.28
2.12
4.86
25
9.94
1.04
9.59
9.90
1.17
8.44
9.82
1.38
7.12
9.82
1.64
6.00
9.46
1.84
5.15
30
9.77
0.96
10.15
9.07
1.03
8.79
8.90
1.12
7.95
8.85
1.32
6.72
9.92
1.61
6.15
35
10.16
0.95
10.73
9.44
1.03
9.15
9.25
1.11
8.30
9.21
1.32
6.97
10.32
1.61
6.40
40
10.67
0.93
11.52
9.91
1.01
9.81
9.71
1.15
8.47
9.67
1.32
7.34
10.84
1.60
6.79
43
10.99
0.91
12.03
10.20
0.96
10.61
10.00
1.08
9.25
9.96
1.23
8.07
11.16
1.47
7.58
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
3.34
2.35
1.42
2.75
2.18
1.26
2.40
2.06
1.16
/
/
/
/
/
/
-15
5.22
2.99
1.74
5.20
3.04
1.71
4.60
3.00
1.54
4.20
2.96
1.42
/
/
/
-10
7.03
3.31
2.13
6.67
3.58
1.86
5.90
3.33
1.77
5.38
3.15
1.71
/
/
/
-7
7.33
3.26
2.25
7.05
3.53
1.97
6.18
3.30
1.87
5.61
3.10
1.81
/
/
/
-5
8.04
3.27
2.46
7.53
3.32
2.27
6.69
3.19
2.09
6.13
3.10
1.98
/
/
/
-2
6.24
2.48
2.52
6.02
2.67
2.26
5.57
2.66
2.10
5.27
2.65
1.99
/
/
/
0
8.82
3.27
2.70
8.18
3.31
2.47
7.46
3.31
2.26
6.99
3.30
2.12
/
/
/
2
9.02
3.22
2.80
8.51
3.38
2.52
7.80
3.36
2.32
7.32
3.34
2.19
/
/
/
5
9.45
3.14
3.01
9.08
3.27
2.78
8.34
3.23
2.58
7.85
3.20
2.45
4.52
3.30
1.37
7
9.83
3.05
3.22
9.72
3.20
3.04
8.82
3.06
2.88
8.23
2.96
2.78
4.85
3.11
1.56
10
9.59
2.91
3.30
9.57
3.11
3.08
8.79
3.07
2.86
8.27
3.04
2.72
6.44
3.05
2.11
12
9.72
2.74
3.55
9.71
2.93
3.32
8.92
2.89
3.08
8.39
2.86
2.93
6.53
2.87
2.27
14
9.75
2.63
3.70
9.73
2.81
3.46
8.94
2.78
3.21
8.40
2.75
3.05
6.54
2.76
2.37
15
9.78
2.58
3.80
9.76
2.76
3.54
8.97
2.72
3.29
8.43
2.70
3.13
6.56
2.71
2.43
19
9.97
2.42
4.13
9.83
2.58
3.81
9.22
2.58
3.57
8.80
2.58
3.41
6.65
2.50
2.66
20
10.02
2.38
4.21
9.85
2.54
3.88
9.28
2.55
3.64
8.90
2.56
3.48
/
/
/
25
9.22
2.07
4.46
9.06
2.20
4.11
8.54
2.21
3.86
8.18
2.22
3.69
/
/
/
30
9.31
1.88
4.96
9.04
1.88
4.80
8.11
1.92
4.22
7.49
1.96
3.83
/
/
/
35
9.69
1.87
5.17
9.42
1.90
4.96
/
/
/
/
/
/
/
/
/
40
10.17
1.84
5.53
/
/
/
/
/
/
/
/
/
/
/
/
43
10.48
1.68
6.25
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
Part 2 – Engineering Data
41
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.4-2: Heating capacity for 10kW models
Normal
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
4.33
1.87
2.32
3.87
1.89
2.05
3.45
2.05
1.68
3.26
2.07
1.57
2.78
2.14
1.30
-20
5.47
1.87
2.93
4.87
1.98
2.46
4.50
2.05
2.20
4.17
2.29
1.82
3.61
2.20
1.64
-15
6.57
1.86
3.53
6.10
2.03
3.01
5.73
2.24
2.56
5.31
2.27
2.34
4.94
2.41
2.05
-10
7.49
1.97
3.81
7.25
2.15
3.37
6.95
2.26
3.08
6.84
2.50
2.74
6.69
2.78
2.41
-7
8.28
2.11
3.92
8.18
2.33
3.51
8.00
2.62
3.05
7.43
2.54
2.93
7.35
2.88
2.55
-5
8.13
1.89
4.29
8.21
2.22
3.70
8.16
2.39
3.41
7.56
2.55
2.96
7.43
2.73
2.72
-2
8.40
1.91
4.40
8.28
2.16
3.84
8.31
2.33
3.56
8.13
2.70
3.01
7.91
2.85
2.78
0
8.33
1.64
5.06
8.25
1.99
4.15
8.33
2.16
3.86
8.23
2.57
3.20
7.87
2.65
2.97
2
8.62
1.61
5.34
8.68
1.92
4.52
8.20
2.05
4.00
8.79
2.54
3.46
7.85
2.45
3.20
5
9.09
1.53
5.95
9.00
1.81
4.99
9.07
1.94
4.68
9.23
2.35
3.92
8.58
2.41
3.55
7
10.22
1.69
6.05
9.98
1.85
5.40
10.00
2.02
4.95
10.14
2.36
4.29
10.00
2.67
3.75
10
10.06
1.34
7.50
9.12
1.54
5.91
8.85
1.68
5.28
8.88
2.04
4.35
8.94
2.40
3.72
12
10.26
1.25
8.19
9.29
1.44
6.45
9.03
1.57
5.77
9.05
1.91
4.74
9.11
2.25
4.06
14
10.30
1.20
8.58
9.33
1.38
6.76
9.06
1.50
6.04
9.08
1.83
4.97
9.14
2.15
4.25
15
10.38
1.18
8.83
9.40
1.35
6.96
9.13
1.47
6.22
9.16
1.79
5.12
9.22
2.10
4.38
19
9.98
1.03
9.72
9.54
1.15
8.27
9.49
1.36
6.96
9.59
1.63
5.89
9.41
1.90
4.94
20
9.88
0.99
9.94
9.58
1.11
8.60
9.58
1.34
7.14
9.70
1.60
6.08
9.46
1.86
5.08
25
8.86
0.83
10.61
8.98
0.98
9.18
8.99
1.18
7.63
9.10
1.40
6.49
8.87
1.63
5.43
30
8.76
0.77
11.31
8.28
0.86
9.63
8.19
0.96
8.57
8.24
1.13
7.32
9.35
1.43
6.53
35
9.19
0.76
12.03
8.69
0.86
10.10
8.59
0.95
9.01
8.65
1.13
7.65
9.81
1.43
6.84
40
9.79
0.75
13.01
8.97
0.82
10.90
8.75
0.95
9.26
8.82
1.09
8.11
10.01
1.37
7.31
43
10.17
0.74
13.67
9.32
0.79
11.87
9.10
0.89
10.18
9.16
1.02
8.98
10.40
1.27
8.21
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
3.11
2.17
1.44
2.65
2.09
1.27
2.37
2.03
1.17
/
/
/
/
/
/
-15
4.78
2.68
1.78
4.69
2.70
1.74
4.23
2.73
1.55
3.91
2.75
1.42
/
/
/
-10
6.41
2.96
2.16
6.08
3.23
1.88
5.41
3.05
1.78
4.96
2.91
1.70
/
/
/
-7
7.00
3.04
2.30
6.85
3.43
2.00
5.82
3.06
1.91
5.14
2.79
1.84
/
/
/
-5
7.08
2.81
2.52
6.89
2.98
2.31
6.03
2.83
2.13
5.46
2.71
2.02
/
/
/
-2
7.94
3.07
2.59
7.34
3.07
2.39
6.61
3.03
2.18
6.12
3.01
2.04
/
/
/
0
8.03
2.92
2.75
7.30
2.87
2.54
6.61
2.89
2.28
6.16
2.91
2.11
/
/
/
2
8.20
2.84
2.89
8.10
3.16
2.56
7.40
3.14
2.36
6.94
3.12
2.23
/
/
/
5
8.53
2.76
3.09
8.02
2.82
2.84
7.32
2.79
2.62
6.86
2.77
2.48
3.86
2.75
1.40
7
9.58
2.92
3.28
9.50
3.07
3.10
8.42
2.86
2.94
7.70
2.72
2.83
4.29
2.66
1.61
10
8.86
2.62
3.39
8.34
2.65
3.14
7.89
2.70
2.92
7.60
2.74
2.77
5.66
2.62
2.16
12
9.03
2.44
3.69
8.50
2.49
3.41
8.05
2.54
3.17
7.75
2.57
3.01
5.84
2.50
2.34
14
9.06
2.34
3.87
8.53
2.39
3.57
8.08
2.44
3.32
7.77
2.47
3.15
5.89
2.42
2.44
15
9.14
2.29
3.99
8.60
2.34
3.67
8.14
2.39
3.41
7.84
2.42
3.23
5.97
2.39
2.50
19
9.36
2.14
4.36
8.70
2.19
3.97
8.41
2.30
3.65
8.21
2.39
3.44
6.29
2.28
2.76
20
9.41
2.11
4.46
8.73
2.16
4.05
8.48
2.28
3.71
8.31
2.38
3.49
/
/
/
25
8.82
1.85
4.76
8.19
1.89
4.32
7.95
2.00
3.97
7.79
2.09
3.73
/
/
/
30
8.96
1.68
5.33
8.21
1.61
5.08
7.58
1.73
4.37
7.17
1.84
3.90
/
/
/
35
9.39
1.68
5.59
8.63
1.63
5.29
/
/
/
/
/
/
/
/
/
40
9.59
1.59
6.02
/
/
/
/
/
/
/
/
/
/
/
/
43
9.96
1.45
6.85
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
42
MBT Confidential
Table 2-4.4-3: Heating capacity for 10kW models
Minimum
LWT
DB
25
30
35
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
2.81
1.19
2.35
2.61
1.26
2.08
2.61
1.53
1.71
2.50
-20
3.35
1.12
2.99
2.89
1.15
2.50
2.89
1.29
2.24
2.91
-15
3.39
0.94
3.61
3.29
1.07
3.08
3.06
1.17
2.62
3.28
-10
3.32
0.85
3.91
3.18
0.92
3.47
3.11
0.98
3.17
3.97
-7
2.09
0.51
4.14
1.95
0.54
3.64
2.05
0.61
3.37
3.52
-5
2.39
0.53
4.48
2.32
0.60
3.84
2.48
0.70
3.57
3.67
-2
5.87
1.27
4.64
5.75
1.42
4.05
5.92
1.59
3.73
6.45
0
2.42
0.46
5.24
2.68
0.62
4.30
2.67
0.67
3.99
3.99
2
2.82
0.50
5.60
3.04
0.65
4.69
3.03
0.70
4.34
4.29
5
3.26
0.53
6.18
3.45
0.67
5.18
3.43
0.71
4.86
4.65
7
3.76
0.58
6.48
3.86
0.68
5.69
3.81
0.71
5.39
4.92
10
3.43
0.44
7.86
3.05
0.49
6.19
3.17
0.57
5.54
4.47
12
3.98
0.46
8.60
3.63
0.54
6.78
3.61
0.59
6.07
4.61
14
4.21
0.47
9.03
3.89
0.55
7.12
3.79
0.59
6.38
4.64
15
4.48
0.48
9.32
4.17
0.57
7.35
4.00
0.61
6.58
4.69
19
4.79
0.47
10.27
5.05
0.58
8.75
5.33
0.72
7.36
6.32
20
4.86
0.46
10.51
5.27
0.58
9.10
5.66
0.75
7.56
6.73
25
5.47
0.49
11.22
5.84
0.60
9.72
6.19
0.77
8.07
7.17
30
5.62
0.47
11.96
5.58
0.55
10.20
5.83
0.64
9.08
6.06
35
6.81
0.53
12.73
6.42
0.60
10.69
6.07
0.64
9.55
6.35
40
7.26
0.53
13.76
6.64
0.58
11.54
6.90
0.70
9.81
6.96
43
7.59
0.52
14.47
6.94
0.55
12.57
7.20
0.67
10.79
7.27
LWT
DB
50
55
58
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
/
/
/
/
/
/
/
/
/
/
-20
2.31
1.59
1.45
2.01
1.57
1.28
1.83
1.56
1.18
/
-15
3.39
1.88
1.81
3.53
2.00
1.76
3.20
2.04
1.57
2.98
-10
4.78
2.17
2.20
4.62
2.40
1.92
4.17
2.30
1.81
3.87
-7
3.82
1.62
2.36
3.99
1.93
2.07
3.76
1.92
1.96
3.60
-5
4.13
1.60
2.58
4.26
1.79
2.38
3.96
1.81
2.19
3.76
-2
6.49
2.43
2.68
6.32
2.59
2.44
5.84
2.60
2.24
5.52
0
4.48
1.59
2.82
4.38
1.68
2.61
4.24
1.81
2.34
4.14
2
4.74
1.58
3.00
4.72
1.74
2.71
4.58
1.85
2.47
4.48
5
5.08
1.60
3.18
5.14
1.76
2.92
4.99
1.85
2.70
4.89
7
6.10
1.76
3.46
6.17
1.90
3.25
5.72
1.87
3.06
5.41
10
5.78
1.64
3.52
6.04
1.85
3.27
5.74
1.89
3.04
5.54
12
5.94
1.54
3.86
6.57
1.84
3.56
6.16
1.88
3.28
5.88
14
5.97
1.47
4.05
6.78
1.82
3.74
6.31
1.85
3.42
6.00
15
6.03
1.44
4.18
7.03
1.83
3.85
6.51
1.86
3.50
6.16
19
6.42
1.40
4.58
6.69
1.60
4.17
6.27
1.64
3.83
6.00
20
6.51
1.39
4.68
6.60
1.55
4.25
6.22
1.59
3.91
5.96
25
6.92
1.38
5.00
6.51
1.43
4.54
6.19
1.48
4.17
5.97
30
7.22
1.29
5.59
6.71
1.26
5.34
6.08
1.32
4.60
5.65
35
7.75
1.32
5.88
7.34
1.32
5.56
/
/
/
/
40
8.24
1.30
6.33
/
/
/
/
/
/
/
43
8.70
1.21
7.20
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
1.56
1.60
1.87
1.43
1.31
1.57
1.85
2.41
1.46
1.66
1.37
2.40
3.56
1.71
2.08
1.41
2.82
4.47
1.82
2.46
1.14
3.08
3.77
1.41
2.67
1.17
3.13
3.95
1.41
2.80
2.01
3.21
6.51
2.26
2.87
1.20
3.31
3.92
1.29
3.04
1.18
3.62
4.23
1.29
3.28
1.14
4.07
4.61
1.26
3.66
1.09
4.53
5.55
1.36
4.09
0.98
4.55
5.34
1.38
3.86
0.92
4.99
5.49
1.30
4.24
0.89
5.24
5.52
1.24
4.45
0.87
5.40
5.58
1.21
4.59
1.01
6.23
6.22
1.20
5.19
1.05
6.44
6.38
1.19
5.34
1.04
6.87
6.81
1.19
5.70
0.78
7.75
7.29
1.06
6.86
0.78
8.10
7.64
1.06
7.19
0.81
8.59
8.24
1.07
7.68
0.76
9.51
8.71
1.01
8.64
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
2.07
1.44
/
/
/
2.22
1.74
/
/
/
1.91
1.88
/
/
/
1.83
2.06
/
/
/
2.61
2.11
/
/
/
1.91
2.17
/
/
/
1.94
2.31
/
/
/
1.92
2.55
2.87
2.02
1.42
1.85
2.93
3.19
1.96
1.63
1.92
2.88
4.38
1.98
2.22
1.91
3.08
4.41
1.84
2.39
1.87
3.20
4.39
1.76
2.50
1.88
3.27
4.40
1.71
2.56
1.67
3.59
4.42
1.56
2.83
1.62
3.67
/
/
/
1.52
3.93
/
/
/
1.38
4.11
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
Part 2 – Engineering Data
43
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.5-1: Heating capacity for 12kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
6.33
2.92
2.17
5.96
2.77
2.15
5.03
2.96
1.70
4.53
3.12
1.45
4.23
3.29
1.28
-20
7.75
3.04
2.55
7.49
3.00
2.50
7.21
3.34
2.16
6.38
3.41
1.87
6.05
3.52
1.72
-15
8.95
3.13
2.85
8.66
3.27
2.65
8.36
3.41
2.45
7.93
3.62
2.19
7.39
3.95
1.87
-10
10.98
3.47
3.17
10.38
3.79
2.74
10.02
3.95
2.54
9.69
4.34
2.23
9.32
4.54
2.05
-7
12.30
3.52
3.49
10.94
3.62
3.02
11.02
3.89
2.83
10.42
4.27
2.44
10.40
4.50
2.31
-5
12.35
3.33
3.71
11.21
3.55
3.15
11.30
3.87
2.92
10.94
4.26
2.57
10.94
4.61
2.37
-2
12.04
3.11
3.87
11.28
3.28
3.44
11.30
3.56
3.17
11.29
4.07
2.77
11.46
4.46
2.57
0
12.48
2.87
4.35
12.09
3.18
3.80
11.99
3.44
3.48
12.25
4.04
3.04
12.29
4.37
2.81
2
13.36
2.80
4.78
12.73
3.11
4.09
12.64
3.45
3.66
12.87
3.93
3.28
12.83
4.40
2.92
5
14.60
2.66
5.49
13.71
3.02
4.55
13.62
3.28
4.15
13.78
3.70
3.73
13.62
4.18
3.26
7
15.45
2.57
6.00
14.67
2.93
5.01
14.57
3.11
4.69
14.80
3.57
4.14
14.51
4.00
3.63
10
14.95
2.40
6.22
14.36
2.62
5.49
14.30
2.83
5.06
14.61
3.34
4.37
14.32
3.89
3.69
12
15.10
2.17
6.96
14.59
2.40
6.08
14.39
2.74
5.25
14.84
3.26
4.55
14.52
3.71
3.92
14
15.06
2.07
7.27
14.60
2.31
6.33
14.34
2.70
5.31
14.85
3.22
4.61
14.52
3.63
4.00
15
15.12
1.97
7.67
14.70
2.21
6.65
14.36
2.65
5.43
14.96
3.17
4.72
14.61
3.53
4.14
19
14.67
1.72
8.54
14.39
1.94
7.41
14.25
2.28
6.26
14.86
2.83
5.25
14.72
3.22
4.58
20
14.56
1.66
8.76
14.32
1.88
7.60
14.22
2.20
6.47
14.84
2.75
5.39
14.75
3.15
4.69
25
14.41
1.55
9.31
14.28
1.73
8.23
14.18
1.93
7.35
14.72
2.35
6.26
14.70
2.73
5.39
30
14.64
1.45
10.12
14.20
1.62
8.75
14.35
1.85
7.76
14.69
2.22
6.63
14.73
2.63
5.59
35
15.17
1.39
10.87
14.86
1.60
9.29
14.71
1.80
8.16
15.09
2.17
6.95
14.57
2.50
5.83
40
15.69
1.41
11.10
15.59
1.59
9.82
15.48
1.79
8.65
15.96
2.17
7.36
15.34
2.44
6.29
43
16.15
1.35
11.96
15.95
1.50
10.61
15.89
1.73
9.18
16.48
2.11
7.82
15.99
2.35
6.81
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
5.36
3.55
1.51
5.08
3.63
1.40
4.90
3.68
1.33
/
/
/
/
/
/
-15
6.71
3.97
1.69
6.33
4.31
1.47
6.05
4.52
1.34
5.87
4.69
1.25
/
/
/
-10
8.96
4.62
1.94
8.60
4.79
1.79
7.46
4.97
1.50
6.70
5.13
1.30
/
/
/
-7
10.61
4.74
2.24
10.59
5.25
2.02
9.06
5.15
1.76
8.05
5.06
1.59
/
/
/
-5
10.77
4.75
2.27
10.55
5.14
2.05
9.15
5.14
1.78
8.21
5.14
1.60
/
/
/
-2
10.82
4.65
2.33
10.56
4.91
2.15
9.22
5.00
1.84
8.33
5.09
1.64
/
/
/
0
11.12
4.61
2.41
10.77
4.74
2.27
9.42
4.89
1.93
8.52
5.03
1.69
/
/
/
2
11.85
4.52
2.62
11.64
4.62
2.52
10.61
4.92
2.15
9.92
5.19
1.91
/
/
/
5
12.81
4.46
2.88
12.82
4.70
2.73
12.07
4.90
2.46
11.57
5.06
2.29
9.92
5.16
1.92
7
13.91
4.43
3.14
13.85
4.66
2.97
13.31
4.89
2.72
12.95
5.07
2.56
11.54
5.17
2.23
10
13.54
4.11
3.30
13.12
4.38
2.99
12.87
4.61
2.79
12.70
4.79
2.65
11.69
4.89
2.39
12
13.54
3.92
3.45
12.64
4.19
3.02
12.58
4.40
2.86
12.55
4.56
2.75
11.76
4.65
2.53
14
13.44
3.84
3.50
12.31
4.09
3.01
12.35
4.30
2.87
12.38
4.45
2.78
11.71
4.55
2.58
15
13.42
3.73
3.60
12.05
3.97
3.03
12.19
4.18
2.92
12.29
4.32
2.85
11.73
4.42
2.65
19
13.61
3.43
3.97
12.03
3.63
3.32
11.45
3.74
3.06
11.07
3.83
2.89
11.82
3.98
2.97
20
13.66
3.37
4.06
12.02
3.55
3.39
11.27
3.64
3.10
10.76
3.71
2.90
/
/
/
25
13.90
3.00
4.63
12.00
3.12
3.84
10.82
3.25
3.33
10.03
3.36
2.99
/
/
/
30
13.95
2.82
4.95
12.64
2.94
4.30
11.26
3.18
3.55
10.34
3.40
3.04
/
/
/
35
14.23
2.72
5.24
12.89
2.79
4.62
/
/
/
/
/
/
/
/
/
40
14.51
2.69
5.40
/
/
/
/
/
/
/
/
/
/
/
/
43
14.78
2.57
5.75
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
44
MBT Confidential
Table 2-4.5-2: Heating capacity for 12kW models
DB
25
30
HC
PI
COP
HC
PI
COP
-25
5.36
2.32
2.30
5.12
2.23
2.29
-20
6.73
2.45
2.75
6.60
2.44
2.70
-15
7.43
2.41
3.09
7.35
2.55
2.88
-10
9.06
2.69
3.37
8.26
2.83
2.92
-7
11.09
3.11
3.57
10.29
3.26
3.15
-5
10.26
2.55
4.03
10.22
3.19
3.20
-2
9.94
2.39
4.16
9.81
2.75
3.57
0
10.23
2.21
4.63
10.05
2.51
4.01
2
10.74
2.05
5.23
9.96
2.23
4.47
5
11.77
1.95
6.05
10.77
2.18
4.94
7
12.90
1.96
6.57
12.11
2.23
5.42
10
11.82
1.72
6.88
11.23
1.87
5.99
12
11.97
1.55
7.73
11.44
1.71
6.67
14
11.97
1.48
8.10
11.47
1.65
6.96
15
12.03
1.41
8.56
11.57
1.58
7.32
19
11.58
1.21
9.60
11.23
1.37
8.22
20
11.47
1.16
9.86
11.15
1.32
8.45
25
11.42
1.09
10.47
11.19
1.22
9.15
30
11.71
1.04
11.31
11.23
1.16
9.66
35
12.36
1.02
12.09
11.97
1.17
10.21
40
13.10
1.06
12.42
12.88
1.19
10.86
43
13.73
1.02
13.47
13.41
1.14
11.81
DB
50
55
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
-20
4.72
3.03
1.56
4.63
3.30
1.40
-15
5.51
3.14
1.75
5.30
3.58
1.48
-10
7.54
3.77
2.00
7.24
3.91
1.85
-7
10.28
4.48
2.29
9.80
4.78
2.05
-5
10.15
4.37
2.32
9.96
4.72
2.11
-2
10.02
4.21
2.38
9.85
4.45
2.22
0
10.13
4.12
2.46
9.94
4.24
2.34
2
10.13
3.82
2.65
11.30
4.52
2.50
5
11.75
4.01
2.93
11.60
4.13
2.81
7
12.17
3.75
3.25
11.90
3.90
3.05
10
10.10
2.93
3.44
9.86
3.16
3.13
12
10.13
2.79
3.62
9.53
3.01
3.17
14
10.07
2.73
3.69
9.30
2.94
3.16
15
10.08
2.66
3.79
9.12
2.85
3.20
19
10.13
2.40
4.21
9.02
2.56
3.52
20
10.14
2.35
4.32
9.00
2.50
3.61
25
10.39
2.11
4.93
9.04
2.21
4.09
30
10.53
2.01
5.24
9.62
2.14
4.49
35
10.95
1.96
5.58
10.00
2.06
4.86
40
11.46
1.98
5.80
/
/
/
43
11.90
1.91
6.22
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
Normal
LWT
35
HC
PI
4.24
2.37
6.25
2.72
7.28
2.78
8.14
3.06
10.00
3.33
9.95
3.28
9.57
2.86
9.79
2.62
9.20
2.36
10.57
2.35
12.10
2.44
10.88
1.97
10.98
1.91
10.96
1.88
11.00
1.84
10.82
1.56
10.77
1.50
10.81
1.33
11.05
1.29
11.55
1.32
12.46
1.33
13.03
1.30
LWT
58
HC
PI
/
/
4.57
3.50
5.10
3.82
6.32
4.11
8.34
4.63
8.33
4.57
8.29
4.39
8.37
4.24
9.46
4.26
10.17
3.98
11.29
3.98
9.90
3.42
9.71
3.25
9.55
3.18
9.44
3.09
8.79
2.72
8.62
2.63
8.33
2.36
8.75
2.37
/
/
/
/
/
/
COP 1.79 2.30 2.62 2.66 3.00 3.03 3.35 3.74 3.90 4.50 4.95 5.51 5.75 5.83 5.97 6.93 7.18 8.15 8.55 8.78 9.37 10.01
COP /
1.31 1.33 1.54 1.80 1.82 1.89 1.98 2.22 2.55 2.84 2.89 2.98 3.00 3.06 3.23 3.28 3.52 3.70
/ / /
HC 3.88 5.62 6.63 8.00 10.14 10.07 9.83 10.11 10.07 10.83 12.35 11.26 11.47 11.51 11.61 11.43 11.39 11.37 11.46 11.99 13.00 13.68
HC / / 4.96 5.70 7.23 7.24 7.26 7.33 8.17 9.21 10.81 9.92 9.83 9.71 9.66 8.63 8.37 7.85 8.17 / / /
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
2.57
1.51
3.66
2.82
1.30
2.85
1.97
5.31
3.01
1.77
2.86
2.32
6.04
3.13
1.93
3.45
2.32
7.80
3.70
2.11
4.06
2.50
10.20
4.25
2.40
3.76
2.68
10.18
4.15
2.45
3.35
2.94
10.06
3.76
2.68
3.11
3.25
10.23
3.46
2.96
2.81
3.58
10.60
3.53
3.00
2.65
4.08
11.08
3.16
3.51
2.75
4.50
12.30
3.32
3.70
2.34
4.81
10.91
2.74
3.99
2.28
5.04
11.10
2.61
4.26
2.25
5.11
11.12
2.55
4.36
2.21
5.24
11.20
2.48
4.52
1.94
5.88
11.19
2.22
5.03
1.89
6.04
11.19
2.17
5.16
1.46
7.79
11.22
1.89
5.93
1.41
8.15
11.36
1.93
5.88
1.60
7.49
11.45
1.86
6.17
1.63
7.99
12.36
1.84
6.71
1.60
8.54
13.12
1.80
7.31
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
4.01
1.24
/
/
/
4.30
1.33
/
/
/
4.42
1.64
/
/
/
4.44
1.63
/
/
/
4.34
1.67
/
/
/
4.23
1.73
/
/
/
4.08
2.01
/
/
/
3.86
2.38
8.19
4.05
2.02
4.06
2.66
9.64
4.10
2.35
3.62
2.74
9.48
3.80
2.49
3.44
2.86
9.56
3.59
2.66
3.36
2.89
9.54
3.50
2.72
3.26
2.97
9.57
3.39
2.82
2.84
3.04
9.72
3.03
3.20
2.74
3.06
/
/
/
2.50
3.14
/
/
/
2.58
3.17
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
Part 2 – Engineering Data
45
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.5-3: Heating capacity for 12kW models
Minimum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
3.64
1.54
2.36
3.52
1.50
2.35
3.27
1.81
1.81
3.08
2.01
1.53
2.83
2.17
1.30
-20
4.44
1.60
2.78
4.22
1.54
2.74
4.08
1.75
2.33
3.72
1.86
2.00
3.93
2.25
1.75
-15
4.85
1.54
3.16
5.00
1.70
2.94
4.92
1.83
2.68
4.55
1.92
2.37
4.73
2.45
1.93
-10
4.67
1.34
3.49
4.48
1.48
3.03
4.36
1.59
2.74
4.39
1.84
2.38
4.85
2.25
2.15
-7
4.61
1.17
3.94
3.85
1.15
3.36
3.97
1.26
3.14
4.20
1.53
2.74
5.41
2.14
2.52
-5
4.75
1.13
4.19
4.06
1.15
3.53
4.18
1.28
3.26
4.52
1.56
2.90
5.80
2.23
2.61
-2
4.73
1.08
4.40
4.21
1.09
3.86
4.27
1.20
3.55
4.75
1.51
3.14
6.16
2.18
2.83
0
4.99
1.01
4.96
4.64
1.08
4.28
4.62
1.18
3.92
5.24
1.52
3.45
6.70
2.15
3.11
2
5.41
0.98
5.54
4.95
1.06
4.69
4.92
1.16
4.23
5.56
1.45
3.83
7.04
2.12
3.32
5
5.91
0.93
6.35
5.34
1.03
5.19
5.31
1.12
4.73
5.97
1.39
4.29
7.49
2.05
3.66
7
6.15
0.88
6.98
5.53
0.96
5.79
5.58
1.04
5.38
6.30
1.31
4.80
7.88
1.92
4.10
10
6.10
0.84
7.24
5.72
0.91
6.31
5.62
0.97
5.81
6.37
1.26
5.07
7.92
1.90
4.16
12
6.05
0.75
8.12
5.78
0.82
7.01
5.65
0.94
6.04
6.69
1.26
5.29
8.05
1.81
4.44
14
5.97
0.70
8.49
5.76
0.79
7.30
5.62
0.92
6.11
6.78
1.27
5.36
8.05
1.77
4.54
15
5.93
0.66
8.96
5.78
0.75
7.68
5.62
0.90
6.26
6.92
1.26
5.49
8.09
1.72
4.69
19
5.83
0.58
10.05
5.74
0.67
8.61
5.65
0.78
7.27
6.96
1.13
6.16
8.24
1.58
5.23
20
5.81
0.56
10.32
5.73
0.65
8.85
5.66
0.75
7.52
6.97
1.10
6.32
8.27
1.54
5.36
25
5.89
0.54
10.97
5.85
0.61
9.58
5.79
0.68
8.54
7.06
0.96
7.36
8.39
1.36
6.16
30
6.83
0.58
11.82
6.96
0.69
10.11
7.82
0.89
8.78
8.23
1.09
7.52
8.52
1.38
6.18
35
7.23
0.56
12.79
7.43
0.69
10.81
8.17
0.88
9.31
8.60
1.08
7.94
8.58
1.32
6.49
40
7.63
0.58
13.14
7.95
0.69
11.50
8.75
0.88
9.93
9.09
1.07
8.47
9.05
1.28
7.05
43
8.10
0.57
14.26
8.37
0.67
12.51
9.22
0.87
10.62
9.64
1.06
9.06
9.75
1.27
7.69
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
3.75
2.43
1.54
3.60
2.58
1.39
3.51
2.69
1.30
/
/
/
/
/
/
-15
4.63
2.64
1.75
4.43
2.98
1.49
4.31
3.21
1.34
4.22
3.39
1.25
/
/
/
-10
5.11
2.50
2.04
5.33
2.83
1.89
4.82
3.08
1.57
4.49
3.32
1.35
/
/
/
-7
5.73
2.41
2.37
6.03
2.79
2.16
5.55
2.96
1.87
5.23
3.11
1.68
/
/
/
-5
5.93
2.44
2.43
6.12
2.79
2.20
5.70
3.01
1.89
5.42
3.20
1.69
/
/
/
-2
5.95
2.35
2.53
6.12
2.66
2.30
5.78
2.95
1.96
5.56
3.20
1.74
/
/
/
0
6.12
2.31
2.65
6.23
2.58
2.42
5.94
2.90
2.05
5.75
3.18
1.81
/
/
/
2
6.66
2.32
2.87
7.10
2.68
2.65
6.89
2.97
2.32
6.76
3.22
2.10
/
/
/
5
7.30
2.32
3.15
8.08
2.71
2.98
7.95
2.97
2.68
7.87
3.18
2.48
6.99
3.33
2.10
7
7.83
2.26
3.46
8.63
2.64
3.27
8.68
2.91
2.98
8.71
3.13
2.79
8.06
3.28
2.46
10
7.76
2.13
3.63
8.30
2.54
3.27
8.53
2.82
3.03
8.68
3.03
2.87
8.28
3.17
2.61
12
8.07
2.11
3.82
8.12
2.46
3.30
8.50
2.73
3.11
8.75
2.93
2.98
8.50
3.07
2.77
14
8.15
2.10
3.88
7.95
2.41
3.30
8.41
2.69
3.13
8.71
2.89
3.02
8.54
3.02
2.83
15
8.28
2.08
3.98
7.83
2.35
3.33
8.37
2.63
3.18
8.73
2.83
3.09
8.62
2.95
2.92
19
8.48
1.92
4.42
7.89
2.15
3.67
7.91
2.35
3.36
7.92
2.50
3.16
8.97
2.73
3.29
20
8.52
1.88
4.53
7.90
2.11
3.75
7.79
2.28
3.41
7.72
2.43
3.18
/
/
/
25
8.81
1.70
5.18
8.00
1.88
4.25
7.58
2.07
3.66
7.29
2.23
3.27
/
/
/
30
8.95
1.62
5.51
8.60
1.82
4.73
7.84
2.02
3.89
7.34
2.20
3.33
/
/
/
35
9.27
1.58
5.87
8.90
1.74
5.11
/
/
/
/
/
/
/
/
/
40
9.60
1.57
6.10
/
/
/
/
/
/
/
/
/
/
/
/
43
10.00
1.53
6.54
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
46
MBT Confidential
Part 2 – Engineering Data
M thermal Arctic Mono
Table 2-4.6-1: Heating capacity for 14kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
7.00
3.27
2.14
6.76
3.20
2.11
5.43
3.18
1.71
4.89
3.35
1.46
4.47
3.47
1.29
-20
8.36
3.25
2.57
8.01
3.18
2.52
7.79
3.58
2.18
6.89
3.65
1.89
6.25
3.61
1.73
-15
9.61
3.40
2.82
9.47
3.61
2.62
9.22
3.80
2.43
8.57
3.95
2.17
7.63
4.12
1.85
-10
11.88
3.81
3.12
11.42
4.18
2.73
10.95
4.44
2.47
10.60
4.70
2.26
9.64
4.73
2.04
-7
13.71
4.02
3.41
12.91
4.28
3.02
12.70
4.55
2.79
12.32
4.94
2.49
11.94
5.17
2.31
-5
13.90
3.78
3.68
13.19
3.87
3.41
12.76
4.27
2.99
12.56
4.61
2.73
12.07
4.99
2.42
-2
13.69
3.61
3.79
13.01
3.61
3.60
12.51
4.04
3.09
12.45
4.38
2.84
12.21
4.90
2.49
0
14.32
3.40
4.21
13.68
3.54
3.87
13.03
4.00
3.26
13.01
4.32
3.01
12.69
4.85
2.62
2
14.69
3.20
4.59
14.14
3.44
4.11
13.61
3.94
3.46
13.46
4.23
3.18
13.32
4.84
2.75
5
15.38
2.93
5.25
14.91
3.30
4.51
14.32
3.63
3.94
14.28
3.95
3.61
14.29
4.59
3.11
7
16.27
2.81
5.80
15.55
3.15
4.94
15.46
3.44
4.49
15.60
3.86
4.04
15.65
4.52
3.46
10
15.54
2.28
6.81
15.52
2.89
5.36
14.86
3.10
4.79
15.27
3.60
4.24
14.97
4.08
3.67
12
15.49
2.14
7.23
15.41
2.76
5.58
15.08
3.02
4.99
15.61
3.59
4.35
15.30
4.04
3.79
14
15.36
2.08
7.38
15.25
2.70
5.65
15.08
2.99
5.04
15.68
3.58
4.37
15.36
4.02
3.82
15
15.32
2.01
7.62
15.18
2.62
5.79
15.17
2.94
5.16
15.83
3.56
4.45
15.50
3.98
3.89
19
14.99
1.83
8.21
14.89
2.27
6.55
14.75
2.66
5.55
15.35
3.14
4.90
15.20
3.52
4.32
20
14.90
1.78
8.35
14.81
2.20
6.74
14.64
2.59
5.65
15.23
3.04
5.01
15.12
3.42
4.42
25
14.89
1.64
9.08
14.75
1.92
7.69
14.62
2.38
6.15
14.93
2.68
5.57
14.74
2.98
4.95
30
15.25
1.55
9.82
14.81
1.80
8.21
14.86
2.10
7.09
15.06
2.42
6.22
15.00
2.80
5.36
35
16.01
1.45
11.05
15.37
1.70
9.04
14.99
1.87
8.02
15.49
2.26
6.86
15.25
2.65
5.77
40
16.22
1.40
11.62
16.41
1.59
10.29
16.21
1.89
8.57
15.96
2.20
7.26
15.75
2.59
6.08
43
16.55
1.36
12.20
16.73
1.54
10.83
16.54
1.88
8.81
16.28
2.12
7.69
16.07
2.56
6.27
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
5.42
3.61
1.50
5.14
3.87
1.33
4.97
4.06
1.23
/
/
/
/
/
/
-15
7.01
4.32
1.62
6.46
4.58
1.41
6.19
4.84
1.28
6.01
5.05
1.19
/
/
/
-10
9.07
5.01
1.81
8.72
5.21
1.67
7.53
5.26
1.43
6.73
5.30
1.27
/
/
/
-7
11.04
5.33
2.07
11.27
5.61
2.01
9.32
5.45
1.71
8.02
5.31
1.51
/
/
/
-5
11.17
5.24
2.13
11.14
5.32
2.09
9.41
5.18
1.82
8.25
5.06
1.63
/
/
/
-2
11.39
5.07
2.25
11.36
5.23
2.17
9.80
5.26
1.86
8.76
5.28
1.66
/
/
/
0
11.89
4.99
2.38
11.80
5.19
2.27
10.32
5.34
1.93
9.34
5.48
1.70
/
/
/
2
12.68
5.13
2.47
12.62
5.27
2.39
11.28
5.44
2.07
10.38
5.58
1.86
/
/
/
5
13.80
4.98
2.77
13.78
5.18
2.66
12.53
5.29
2.37
11.70
5.38
2.17
9.76
5.33
1.83
7
14.97
4.81
3.11
14.53
5.14
2.83
13.73
5.08
2.70
13.20
5.20
2.54
10.38
4.95
2.10
10
15.31
4.62
3.31
14.15
4.60
3.08
13.58
4.77
2.84
13.20
4.91
2.69
11.23
4.98
2.26
12
15.39
4.50
3.42
13.63
4.31
3.16
13.27
4.53
2.93
13.02
4.70
2.77
11.60
4.96
2.34
14
15.32
4.45
3.44
13.27
4.17
3.18
13.01
4.42
2.95
12.84
4.60
2.79
11.69
4.96
2.36
15
15.34
4.37
3.51
12.99
4.02
3.24
12.84
4.28
3.00
12.74
4.48
2.84
11.86
4.97
2.41
19
15.06
3.94
3.83
12.78
3.69
3.46
11.91
3.81
3.12
11.34
3.91
2.90
12.53
4.80
2.61
20
14.99
3.84
3.90
12.73
3.62
3.52
11.68
3.70
3.16
10.99
3.77
2.92
/
/
/
25
14.72
3.43
4.30
12.47
3.28
3.80
11.08
3.35
3.31
10.16
3.40
2.99
/
/
/
30
14.61
3.14
4.65
12.80
2.93
4.37
11.32
3.17
3.57
10.34
3.40
3.04
/
/
/
35
14.78
2.95
5.00
13.01
2.77
4.69
/
/
/
/
/
/
/
/
/
40
14.95
2.78
5.38
/
/
/
/
/
/
/
/
/
/
/
/
43
15.15
2.73
5.54
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
47
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.6-2: Heating capacity for 14kW models
Normal
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
5.85
2.57
2.27
5.71
2.54
2.25
4.57
2.55
1.79
4.19
2.76
1.51
3.88
2.97
1.30
-20
7.27
2.63
2.77
7.27
2.67
2.72
6.75
2.92
2.32
6.07
3.06
1.99
5.48
3.08
1.78
-15
8.03
2.63
3.06
7.94
2.79
2.85
7.86
3.03
2.60
7.16
3.12
2.29
6.24
3.26
1.91
-10
9.80
2.96
3.31
9.36
3.22
2.91
8.89
3.43
2.59
8.76
3.74
2.34
8.07
3.85
2.09
-7
12.45
3.50
3.56
12.19
3.94
3.09
12.00
4.21
2.85
11.87
4.46
2.66
11.70
4.98
2.35
-5
12.05
3.05
3.95
11.84
3.29
3.60
11.87
3.88
3.06
11.70
4.08
2.87
11.68
4.73
2.47
-2
11.76
2.89
4.07
11.44
3.01
3.80
11.44
3.55
3.22
11.44
3.79
3.02
11.54
4.52
2.55
0
12.20
2.70
4.52
11.79
2.89
4.08
11.72
3.40
3.45
11.79
3.65
3.23
11.74
4.36
2.69
2
11.98
2.41
4.97
11.80
2.65
4.46
11.00
3.06
3.60
11.55
3.40
3.40
11.50
4.04
2.85
5
13.40
2.39
5.61
13.08
2.71
4.82
13.01
3.17
4.10
12.62
3.26
3.87
12.70
3.85
3.30
7
15.21
2.43
6.26
14.54
2.77
5.24
14.50
3.15
4.60
14.58
3.52
4.15
14.10
3.92
3.60
10
12.29
1.63
7.53
12.14
2.07
5.85
11.31
2.17
5.22
11.77
2.52
4.67
11.41
2.87
3.97
12
12.29
1.53
8.03
12.08
1.97
6.12
11.50
2.11
5.46
12.07
2.51
4.82
11.69
2.84
4.12
14
12.20
1.49
8.22
11.98
1.93
6.21
11.53
2.08
5.53
12.14
2.50
4.85
11.76
2.83
4.16
15
12.19
1.43
8.50
11.95
1.87
6.37
11.62
2.05
5.67
12.29
2.49
4.94
11.89
2.80
4.25
19
11.83
1.28
9.22
11.62
1.60
7.27
11.20
1.82
6.15
11.81
2.15
5.48
11.55
2.43
4.75
20
11.74
1.25
9.40
11.53
1.54
7.49
11.09
1.77
6.27
11.69
2.08
5.62
11.47
2.35
4.87
25
11.80
1.15
10.22
11.56
1.35
8.55
11.15
1.63
6.82
11.53
1.66
6.93
11.25
2.06
5.46
30
12.20
1.11
10.98
11.71
1.29
9.07
11.44
1.46
7.81
11.75
1.54
7.64
11.56
2.05
5.63
35
13.05
1.06
12.28
12.39
1.25
9.93
11.77
1.36
8.63
12.31
1.67
7.39
11.99
1.96
6.10
40
13.55
1.04
13.01
13.55
1.19
11.38
13.05
1.41
9.28
13.01
1.65
7.88
12.70
1.96
6.48
43
14.06
1.02
13.75
14.07
1.17
12.06
13.56
1.41
9.61
13.51
1.61
8.40
13.19
1.96
6.73
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
4.77
3.08
1.55
4.69
3.52
1.33
4.64
3.87
1.20
/
/
/
/
/
/
-15
5.76
3.42
1.68
5.41
3.81
1.42
5.22
4.09
1.28
5.09
4.31
1.18
/
/
/
-10
7.63
4.08
1.87
7.34
4.26
1.72
6.37
4.35
1.46
5.73
4.44
1.29
/
/
/
-7
10.86
5.15
2.11
11.00
5.37
2.05
8.84
5.05
1.75
7.41
4.77
1.55
/
/
/
-5
10.78
4.99
2.16
10.83
5.13
2.11
8.87
4.82
1.84
7.57
4.56
1.66
/
/
/
-2
10.80
4.73
2.28
10.87
4.95
2.19
9.05
4.78
1.89
7.85
4.64
1.69
/
/
/
0
11.08
4.57
2.42
11.13
4.84
2.30
9.36
4.77
1.96
8.18
4.70
1.74
/
/
/
2
12.14
4.86
2.50
12.40
5.06
2.45
10.10
4.77
2.12
8.56
4.46
1.92
/
/
/
5
12.50
4.40
2.84
12.57
4.57
2.75
10.61
4.31
2.46
9.31
4.11
2.27
8.06
4.19
1.93
7
14.00
4.40
3.18
13.80
4.68
2.95
12.93
4.67
2.77
12.34
4.73
2.61
9.71
4.50
2.16
10
11.42
3.30
3.46
10.64
3.31
3.21
10.44
3.54
2.95
10.31
3.71
2.78
9.11
3.88
2.35
12
11.51
3.21
3.59
10.28
3.10
3.32
10.23
3.35
3.05
10.20
3.54
2.88
9.43
3.83
2.46
14
11.48
3.17
3.62
10.03
3.00
3.35
10.05
3.26
3.08
10.07
3.47
2.90
9.53
3.82
2.50
15
11.52
3.11
3.70
9.84
2.88
3.41
9.94
3.16
3.14
10.01
3.38
2.96
9.68
3.78
2.56
19
11.21
2.76
4.07
9.59
2.61
3.68
9.14
2.77
3.30
8.83
2.90
3.05
10.29
3.65
2.82
20
11.13
2.68
4.16
9.53
2.55
3.74
8.94
2.68
3.34
8.54
2.78
3.07
/
/
/
25
11.00
2.41
4.58
9.40
2.32
4.04
8.53
2.43
3.50
7.95
2.53
3.14
/
/
/
30
11.03
2.24
4.92
9.74
2.13
4.56
8.80
2.36
3.73
8.17
2.58
3.17
/
/
/
35
11.38
2.13
5.33
10.09
2.05
4.93
/
/
/
/
/
/
/
/
/
40
11.81
2.04
5.78
/
/
/
/
/
/
/
/
/
/
/
/
43
12.20
2.04
5.99
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
48
MBT Confidential
Part 2 – Engineering Data
Table 2-4.6-3: Heating capacity for 14kW models
Minimum
LWT
DB
25
30
35
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
3.76
1.62
2.33
4.02
1.74
2.30
3.54
1.94
1.82
3.33
-20
4.58
1.63
2.80
4.77
1.73
2.76
4.40
1.87
2.35
4.02
-15
5.24
1.68
3.13
5.40
1.85
2.91
5.31
2.00
2.66
4.91
-10
5.05
1.47
3.44
5.08
1.68
3.02
4.76
1.79
2.66
4.80
-7
5.14
1.34
3.84
4.55
1.35
3.36
4.57
1.48
3.10
4.96
-5
5.35
1.28
4.17
4.78
1.25
3.81
4.61
1.38
3.34
5.19
-2
5.37
1.25
4.30
4.89
1.21
4.04
4.56
1.32
3.47
5.24
0
5.73
1.19
4.80
5.34
1.22
4.36
4.79
1.31
3.66
5.57
2
5.93
1.11
5.33
5.57
1.18
4.71
5.14
1.29
4.00
5.83
5
6.23
1.03
6.07
5.89
1.14
5.15
5.58
1.24
4.49
6.18
7
6.48
0.96
6.75
6.03
1.06
5.68
5.92
1.12
5.27
6.64
10
6.34
0.80
7.93
6.18
1.00
6.16
5.84
1.06
5.50
6.66
12
6.21
0.74
8.43
6.11
0.95
6.43
5.92
1.03
5.73
7.04
14
6.09
0.71
8.62
6.02
0.92
6.52
5.91
1.02
5.80
7.16
15
6.01
0.67
8.90
5.97
0.89
6.68
5.93
1.00
5.94
7.33
19
5.96
0.62
9.65
5.93
0.78
7.61
5.85
0.91
6.45
7.19
20
5.95
0.60
9.84
5.93
0.76
7.85
5.83
0.89
6.57
7.16
25
6.09
0.57
10.70
6.05
0.68
8.95
5.96
0.83
7.15
7.17
30
7.11
0.62
11.47
7.26
0.76
9.49
8.10
1.01
8.02
8.43
35
7.63
0.59
13.00
7.69
0.73
10.52
8.32
0.91
9.15
8.83
40
7.89
0.57
13.77
8.37
0.69
12.06
9.16
0.93
9.84
9.10
43
8.30
0.57
14.55
8.79
0.69
12.78
9.59
0.94
10.19
9.53
LWT
DB
50
55
58
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
-25
/
/
/
/
/
/
/
/
/
/
-20
3.79
2.47
1.54
3.65
2.76
1.32
3.56
2.98
1.20
/
-15
4.84
2.87
1.68
4.52
3.17
1.43
4.41
3.44
1.28
4.33
-10
5.17
2.71
1.90
5.40
3.08
1.76
4.87
3.26
1.49
4.51
-7
5.96
2.71
2.20
6.25
2.90
2.15
5.63
3.09
1.82
5.22
-5
6.15
2.69
2.28
6.46
2.88
2.24
5.85
3.03
1.93
5.44
-2
6.30
2.61
2.41
6.62
2.83
2.34
6.12
3.07
1.99
5.78
0
6.61
2.58
2.57
6.90
2.81
2.46
6.46
3.12
2.07
6.17
2
7.18
2.62
2.74
7.73
2.94
2.63
7.29
3.20
2.28
7.00
5
7.86
2.59
3.03
8.68
2.98
2.91
8.24
3.20
2.58
7.95
7
8.43
2.46
3.43
9.05
2.78
3.25
8.95
3.02
2.96
8.88
10
8.77
2.40
3.65
8.96
2.67
3.36
8.99
2.91
3.09
9.02
12
9.17
2.43
3.78
8.75
2.53
3.46
8.95
2.81
3.19
9.08
14
9.29
2.44
3.81
8.57
2.46
3.49
8.85
2.76
3.21
9.04
15
9.47
2.43
3.89
8.45
2.38
3.55
8.80
2.69
3.27
9.04
19
9.38
2.20
4.27
8.38
2.19
3.83
8.22
2.39
3.43
8.11
20
9.35
2.14
4.36
8.36
2.15
3.89
8.07
2.32
3.47
7.88
25
9.33
1.94
4.80
8.32
1.98
4.21
7.76
2.13
3.65
7.38
30
9.37
1.81
5.17
8.70
1.81
4.80
7.89
2.01
3.92
7.34
35
9.63
1.72
5.61
8.97
1.73
5.19
/
/
/
/
40
9.89
1.63
6.08
/
/
/
/
/
/
/
43
10.25
1.63
6.30
/
/
/
/
/
/
/
Abbreviations: LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
M thermal Arctic Mono
40
45
PI
COP
HC
PI
COP
2.17
1.54
3.00
2.29
1.31
1.99
2.02
4.06
2.31
1.76
2.09
2.35
4.88
2.56
1.91
1.99
2.41
5.01
2.35
2.13
1.77
2.80
6.21
2.46
2.52
1.69
3.07
6.40
2.41
2.65
1.63
3.22
6.56
2.39
2.75
1.63
3.42
6.92
2.39
2.90
1.60
3.64
7.33
2.34
3.13
1.49
4.16
7.86
2.25
3.49
1.42
4.68
8.50
2.09
4.07
1.35
4.92
8.28
2.00
4.15
1.39
5.06
8.49
1.98
4.29
1.41
5.09
8.51
1.97
4.33
1.42
5.18
8.59
1.94
4.42
1.25
5.74
8.50
1.72
4.93
1.22
5.88
8.48
1.68
5.06
1.10
6.54
8.42
1.48
5.67
1.20
7.05
8.68
1.46
5.92
1.13
7.84
8.98
1.40
6.42
1.09
8.35
9.29
1.36
6.82
1.07
8.90
9.24
1.31
7.08
60
65
PI
COP
HC
PI
COP
/
/
/
/
/
/
/
/
/
/
3.65
1.19
/
/
/
3.43
1.32
/
/
/
3.26
1.60
/
/
/
3.15
1.73
/
/
/
3.28
1.76
/
/
/
3.39
1.82
/
/
/
3.43
2.04
/
/
/
3.38
2.35
6.88
3.44
2.00
3.21
2.77
7.25
3.14
2.31
3.10
2.91
7.95
3.23
2.46
3.03
3.00
8.39
3.27
2.56
2.99
3.03
8.53
3.29
2.59
2.93
3.09
8.72
3.29
2.65
2.56
3.17
9.49
3.27
2.90
2.47
3.19
/
/
/
2.26
3.27
/
/
/
2.20
3.33
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
49
MBT Confidential
Midea M thermal Arctic Mono Engineering Data Book
M thermal Arctic Mono
Table 2-4.7-1: Heating capacity for 16kW models
Maximum
LWT
DB
25
30
35
40
45
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
7.69
4.03
1.91 7986.00 4132.04
1.93
6.61
4.01
1.65
5.89
4.43
1.33
4.96
4.21
1.18
-20
9.57
4.02
2.38
9.71
4.43
2.19
8.16
4.77
1.71
7.48
4.76
1.57
6.55
4.85
1.35
-15
11.84
4.37
2.71
11.27
4.60
2.45
10.71
4.93
2.17
10.07
5.24
1.92
9.03
5.38
1.68
-10
13.40
4.51
2.97
13.03
4.79
2.72
12.68
5.10
2.49
12.42
5.45
2.28
11.05
5.64
1.96
-7
14.34
4.59
3.13
14.09
4.89
2.88
13.87
5.19
2.67
13.84
5.55
2.50
13.13
6.02
2.18
-5
14.55
4.19
3.47
14.25
4.55
3.13
13.98
4.88
2.86
13.84
5.31
2.61
13.38
5.88
2.28
-2
14.38
3.84
3.74
13.90
4.08
3.41
13.70
4.46
3.07
13.48
4.96
2.72
13.53
5.56
2.43
0
15.09
3.49
4.33
14.46
3.85
3.75
14.27
4.27
3.34
13.85
4.80
2.88
14.06
5.33
2.64
2
15.73
3.36
4.68
15.10
3.86
3.91
14.72
4.38
3.36
14.48
4.75
3.05
14.73
5.42
2.72
5
16.79
3.24
5.19
16.53
4.07
4.06
16.07
3.98
4.04
15.64
4.56
3.43
15.88
4.96
3.20
7
17.48
3.16
5.53
16.91
3.68
4.60
16.79
3.79
4.43
16.35
4.25
3.85
16.62
4.80
3.46
10
18.01
2.99
6.02
17.76
3.58
4.96
17.58
3.71
4.74
17.07
4.31
3.96
17.33
4.72
3.67
12
18.52
2.88
6.44
18.22
3.30
5.52
18.07
3.55
5.08
17.74
4.19
4.23
18.00
4.63
3.89
14
18.65
2.83
6.60
18.31
3.19
5.75
18.18
3.49
5.22
17.94
4.14
4.33
18.21
4.60
3.96
15
18.89
2.76
6.84
18.52
3.06
6.05
18.41
3.40
5.41
18.26
4.08
4.48
18.53
4.53
4.09
19
17.55
2.25
7.79
17.15
2.49
6.89
17.04
2.82
6.05
16.77
3.36
4.99
16.59
3.92
4.24
20
17.22
2.14
8.03
16.81
2.37
7.10
16.70
2.69
6.21
16.39
3.20
5.12
16.11
3.77
4.28
25
16.48
1.86
8.86
16.19
2.23
7.26
16.24
2.34
6.94
16.15
2.78
5.81
15.73
3.23
4.87
30
15.63
1.55
10.09
15.46
1.88
8.21
15.37
2.00
7.68
15.41
2.37
6.49
15.05
2.76
5.46
35
16.57
1.53
10.82
16.35
1.81
9.01
16.31
1.94
8.42
16.23
2.36
6.87
15.88
2.79
5.68
40
16.90
1.47
11.46
17.64
1.75
10.06
17.25
1.88
9.15
17.35
2.40
7.24
16.41
2.78
5.91
43
17.24
1.46
11.84
17.99
1.71
10.51
17.59
1.88
9.37
17.70
2.39
7.41
16.74
2.70
6.20
LWT
DB
50
55
58
60
65
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
HC
PI
COP
-25
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
-20
5.85
4.54
1.29
5.37
4.75
1.13
5.07
4.90
1.04
/
/
/
/
/
/
-15
7.53
5.32
1.42
6.82
5.29
1.29
6.58
5.46
1.21
6.42
5.59
1.15
/
/
/
-10
9.49
5.58
1.70
8.92
5.92
1.51
7.79
5.74
1.36
7.04
5.59
1.26
/
/
/
-7
12.86
6.22
2.07
12.50
6.25
2.00
9.94
6.17
1.61
8.25
6.18
1.33
/
/
/
-5
12.95
5.82
2.22
12.60
5.92
2.13
10.21
5.94
1.72
8.62
5.97
1.45
/
/
/
-2
13.02
5.53
2.35
12.59
5.75
2.19
10.47
5.75
1.82
9.06
5.74
1.58
/
/
/
0
13.42
5.35
2.51
12.84
5.66
2.27
10.87
5.60
1.94
9.56
5.54
1.72
/
/
/
2
14.08
5.40
2.61
13.65
5.74
2.38
12.08
5.78
2.09
11.03
5.82
1.89
/
/
/
5
15.26
5.05
3.02
14.47
5.21
2.77
13.42
5.29
2.53
12.71
5.36
2.37
10.71
5.24
2.04
7
16.20
5.11
3.17
16.20
5.70
2.84
14.91
5.45
2.74
14.06
5.34
2.63
11.28
5.13
2.20
10
16.69
5.12
3.26
16.05
5.16
3.11
15.01
5.14
2.92
14.32
5.13
2.79
12.23
4.97
2.46
12
17.33
4.96
3.50
16.82
5.14
3.27
15.48
5.05
3.07
14.59
4.98
2.93
12.40
4.89
2.54
14
17.52
4.89
3.59
17.09
5.14
3.33
15.61
5.01
3.12
14.62
4.92
2.97
12.40
4.86
2.55
15
17.83
4.79
3.72
17.46
5.11
3.42
15.83
4.95
3.20
14.75
4.83
3.06
12.47
4.80
2.60
19
15.26
4.21
3.63
15.45
4.48
3.45
14.26
4.48
3.19
13.46
4.47
3.01
12.76
4.58
2.79
20
14.62
4.06
3.60
14.95
4.32
3.46
13.86
4.36
3.18
13.14
4.39
3.00
/
/
/
25
14.52
3.46
4.20
14.06
3.68
3.82
13.26
3.93
3.37
12.73
4.15
3.07
/
/
/
30
14.31
2.99
4.79
13.56
3.24
4.18
12.83
3.63
3.53
12.34
3.98
3.10
/
/
/
35
15.00
3.00
5.01
13.37
3.07
4.35
/
/
/
/
/
/
/
/
/
40
15.58
2.98
5.22
/
/
/
/
/
/
/
/
/
/
/
/
43
15.89
2.94
5.41
/
/
/
/
/
/
/
/
/
/
/
/
Abbreviations:
LWT: Leaving water temperature (°C )
DB: Dry-bulb temperature for Outdoor air temperature (°C ) HC: Total heating capacity (kW) PI: Power input (kW)
50
MBT Confidential
Part 2 – Engineering Data
Table 2-4.7-2: Heating capacity for 16kW models
DB
25
30
HC
PI
COP
HC
PI
COP
-25
6.57
3.24
2.03
6.79
3.29
2.06
-20
8.42
3.29
2.56
8.50
3.59
2.37
-15
9.89
3.37
2.93
9.35
3.52
2.66
-10
11.06
3.51
3.15
10.69
3.68
2.90
-7
13.87
4.27
3.25
13.54
4.44
3.05
-5
13.71
3.85
3.56
13.62
4.13
3.30
-2
13.00
3.35
3.88
12.90
3.57
3.62
0
13.10
2.90
4.52
13.04
3.25
4.01
2
13.25
2.61
5.07
13.10
3.18
4.12
5
14.14
2.52
5.61
13.66
3.19
4.28
7
16.96
2.87
5.91
16.14
3.16
5.11
10
14.24
2.14
6.66
13.89
2.57
5.42
12
14.54
2.03
7.16
14.28
2.32
6.17
14
14.59
1.99
7.35
14.38
2.22
6.49
15
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