Note: For cooling mode, if outlet water temperature is less than 5°C, anti-freeze liquid is needed. 0°C water temperature can be reached by changing DIP switch setting.
Plate heat exchanger uses metal plates to transfer heat between refrigerant and water. The fluids are exposed to a much larger surface area because the fluids spread out over the plates, so both heat transfer efficiency and heat exchanger speed are greatly improved. Multi protections including voltage protection, current protection, anti-freezing protection and water flow protection ensure system safety running.
Fan speed is controlled according to the system pressure and system load, reducing power consumption by 30%. There are 32-step vector control.
Hydrophilic film fins and inner-threaded copper pipes optimize heat exchange efficiency. The specially coated blue fins enhance durability and protect against corrosion from air, water and other corrosive agents, assures a longer coil service life.
Heat exchanger aluminum foil
Heat exchanger copper pipe
Patented liquid distribution components maximize performance and minimize impact of defrosting operation. 500-step EXV with capillary tube allows stable and accurate gas flow control. Fast response results in higher efficiency and improved reliability.
Thanks to the vapor injection DC inverter compressor, unit can run heating mode stably down to -20℃, and the heating capacity can be improved greatly.
Plate Heat Exchanger as a secondary intercooler boosts up refrigerant subcooling and improves 10% energy efficiency.
Four stages of oil control technology ensure all outdoor compressor oil is always kept at a safe level, eliminating any compressor oil shortage problems.
Refrigerant cooling PCB technology reduces electric control heating under harsh working conditions, effectively reduce the temperature of electronic control components, ensure the stable and safe operation of the unit control system.
The intelligent defrosting program calculates the time required for defrosting according to the actual system status, eliminating heat losses from unnecessary defrosting. A specialized defrosting valve reduces time required for defrosting to as little as four minutes.
The DC inverter compressor reaches full capacity rapidly, providing quicker cooling or heating with lower levels of temperature fluctuation during the cooling/heating operation.
Modularity is perfect when an extension of capacity becomes required as the building load range from 75kW to 2240kW.
Single unit covers an area of only 1.92m² , which greatly saves lots of space for group control. The hydraulic models (customized) has the water pump components inside the unit, which can save the installation cost and time and make installation easier.
In one combination system, all units operate as alternative in cycle duty to keep equal running time, realize higher stability, better reliability and longer lifespan.
By detecting the water temperature, the proportion of defrosting unit can be determined intelligently so as to realize small water temperature fluctuation during the alternate defrosting period.
In a combination system, if one unit failed, other units can be back-up instead of the failed one for continuing operation.
Different silent modes enable noise reduction to suit time of day and ambient noise levels.
1.Optimized fan blade edge by CFD programs with analyzing air pressure distribution. Realize higher air volume, lower noise level.
Guide air diffuser hood
Reduce noise effectively
Blade trailing edge dentate structure design
Blade suction surface concave design
Reduced turbulent kinetic energy
Blade installation angle optimization design
Improve airflow and fan efficiency
Large blade front edge bending sweep design
Blade outer edge falling vorticity design
Big heat exchanger area
Located in the upper part
Uniform air flow
High efficient “Double U” heat exchanger
Convenient program upgrade
No need to carry any other heavy equipments but only USB can realize program upgrade of indoor unit and outdoor unit.
For projects with temporary electricity supply restrictions, the outdoor unit supports 7 levels of energy management which can be set to output 40-100% capacity. It prevents tripping during electricity supply restriction conditions and remains system continue to operate.
With the help of Weather temperature curve function, water temperature will automatically change as outside air temperature changes. When outdoor air temperature increases/decreases, the heating load will decrease/increase and water temperature will decrease/increase automatically. When outdoor air temperature decreases/increases, the cooling load will decrease/increase and water temperature will increase/decrease automatically.
For cooling and heating mode, different water temperatures can be switched just by one-touch.
Outdoor units are given anti-corrosion treatment for non-extreme conditions as standard and can also be customized with heavy anti-corrosion treatment on main components for surface protection against corrosive air, acid rain and saline air (for installations in coastal regions) to extend machine life span. The integrity of the anti-corrosion treatment is ensured by subjecting major components and parts to salt mist testing, moisture and heating testing and light aging testing.
Standard products:
Heavy anti-corrosion products:
Standard products:
Heavy anti-corrosion products:
Standard products:
Heavy anti-corrosion products:
Standard products:
Heavy anti-corrosion products:
Standard products:
Heavy anti-corrosion products:
Standard products:
Heavy anti-corrosion products:
Three different user levels ensure users can easily access control functions and allow engineers convenient access to operating parameters.
Each unit can connect with one controller for setting and one controller for monitoring.
For 75/90/140kW model, maximum 16 units can be controlled with one controller.
For 180kW model, maximum 8 units can be controlled with one controller.
Multilingual wired controller using Modbus communication protocol
Only water piping installation is needed, no need to install refrigerant piping. Unit uses hoop connection which can be changed to flange connection by using Midea accessory in orther to suit more application
(Only for 90/180kW model)
The bottom layer can be easily achieved through the rotatable upper PCB, making the maintenance easier. Due to the micro combustibility of R32, the electric control box adopts explosion-proof design to ensure safety and reliability.
Model | MC-SU75-RN8L-B | ||
---|---|---|---|
Power supply | V/Ph/Hz | 380-415/ 3 / 50 | |
Cooling | Capacity | kW | 70 |
Rated input | kW | 26.8 | |
EER | 2.61 | ||
Heating | Capacity | kW | 75 |
Rated input | kW | 23.7 | |
COP | 3.16 | ||
Air heat exchanger | Type | Finned tube | |
Motor type | DC motor | ||
Output | W | 920 | |
Quantity | 2 | ||
Air flow | m3/h | 28500 | |
Water heat exchanger | Type | Plate | |
Volume | L | 5.17 | |
Water flow | m3/h | 12.04 | |
Water flow range | m3/h | 8.0 ~ 15.5 | |
Water pressure drop | kPa | 65 | |
Refrigerant | Type | R32 | |
Charged volume3 | kg | 9 | |
Throttle type | EXV | ||
Sound pressure level (1m)5 | dB(A) | 69 | |
Sound power level4 | 86 | ||
Dimension (W x H x D) | Net dimension | mm | 2000 x 1770 x 960 |
Packing dimension | mm | 2085 x 1890 x 1030 | |
Weight | Net weight | kg | 440 |
Gross weight | kg | 455 | |
Pipe connections | mm | DN50 | |
Water pressure range | MPa | 0.05 ~ 1.0 | |
Water flow switch | m3/h | 8 | |
Vent Valve max working pressure | MPa | 1 | |
Safety valve pressure | MPa | 0.6 | |
Controller | KJRM-120H2/BMWK | ||
Ambient temperature range | Cooling | °C | -10 ~ 48 |
Heating | °C | -20 ~ 43 | |
Water outlet temperature range | Cooling | °C | 0 ~ 20 |
Heating | °C | 25 ~ 54 |
Note:
Series | Aqua Thermal |
Cooling Capacity | 70 kW |
Heating Capacity | 75 kW |
Capacity | 75 kW |