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CGK050V3L; CGK-050V3L; CGK060V3L; CGK-060V3L
SPRSUN
As a renewable heating system, this SPRSUN R32 series EVI DC Inverter Air Source Heat Pump features an output of 22kW. It adopts the Panasonic rotary compressor and significantly improves the problem of insufficient heating efficiency at low temperatures. It also features a 5-inch touch screen, offering you a convenient and all-in-one control experience. You may easily control the temperature and switch the modes via the colorful screen. Its maximum heating capacity can reach up to 22KW, and maximum cooling capacity reaches up to 20.1KW, providing you with a powerful system and high efficiency, whether it's for heating or cooling.
In addition, this low-temperature air source heat pump produces low noise and offers you a quiet environment, perfect for properties in cold areas or cold climates as it uses the outdoor air as its heat source in the winter and heat sink in the summer. Quote for SPRSUN EVI DC Inverter Air Source Heat Pumps now!
A. Higher Energy Efficiency (Lower Operating Costs)
R32 is around 10% more the latent heat of vaporization that R410A which improves the efficiency of heat transfer.
B. Lower Global Warming Potential (GWP)
R32 has an GWP of 675. It's within the post-2030 EU F-Gas Regulation's limit of GWP less than 700, which is a good indicator of sustainability over the long term. R32 is a gas with an ODP of 0 which makes it an environmentally sustainable option.
C. System Compatibility & Cost EfficiencyDirect replacement for Straight replacement of R410A which reduces retrofit cost. Requires 30 percent lower refrigerant consumption than R410A for the same cooling capacity.
Full DC Inverter Technology
The most recent fully DC inverter technology incorporates CAREL the system's adaptive controls to ensure exact energy management.
By dynamically altering defrost and pressure cycles, it dramatically increases efficiency while also reducing the power consumption in every operating condition. The advanced rotary compressor and optimized design of the system ensures high stability and reduce noise levels.
Advanced Noise Reduction
The noise levels of R32's R32 DC heating unit inverter begin at 42 dBA. It is the quietest unit in our DC inverter range.
A. Silent Compartment Technology
This technology comes with a specially-designed chamber made from composite materials that include sheet metal and high-density noise-absorbing foam that is designed to "trap" the noise produced by the compressor. It drastically reduces noise levels and enhances peace of mind.
B. Multi-layer Noise Reduction Technology
Blade Design for Airflow Noise Reduction
Variable Frequency Noise Reduction Design
Sound-Absorbing Foam for Sheet Metal
Intelligent Control System
The smart system is based on an intelligent control mechanism which is distinguished by a low rate of failure and steady operation. It also allows remote monitoring in real-time of the system's operating status, updates with a single click as well as intelligent defrosting.
Real-time Monitor
The smart control system is able to check the operating condition for the heating system in real-time and issue timely alarms in the event of any anomalies.
High Immunity
Effective Handling Of Voltage Fluctuations And Rapid Climate Shifts
Enhanced Efficiency
The Smart System Leverages the Compressor Operating Envelope to Achieve Peak Efficiency
Short Defrost Cycle:
H04: Ambient temperature for defrosting - 15°C
H07: Defrosting environment and evaporator coil temperature difference 1 - 7°C
H08: Defrosting period 1 - 45min
Medium Defrost Cycle:
H09: Ambient temperature for defrosting - minus 2°C
H10: Defrosting environment and evaporator coil temperature difference 2 - 6°C
H11: Defrosting period 2 - 60min
Extended Defrost Cycle:
H12: Ambient temperature for defrosting - minus 10°C
H13: Defrosting environment and evaporator coil temperature difference 3 - 5°C
H14: Defrosting period 3 - 90min
The front grille has the seamless sheet metal design to give a minimalist and sleek design.
The frame for the air outlet and the entire unit are clad with contrasting grey and matte black hues and adds to the overall design.
The use of serrated aluminum alloy fan blades greatly reduces the sound of wind.
The compressor has dual shock absorption, thereby minimising resonance and noise created due to the operation at high frequencies compressor.
Pipes for water inlet and outlet release water at the rear of right.
Key Advantages:
High Efficiency in Extreme Cold
Keeps its superior heating efficiency even at -25degC. the COP being significantly higher than conventional heat pump and reducing the dependence on electric heating.
Inverter Synergy
The volume of vapor is adjusted dynamically in conjunction using variable-frequency speed control to provide precise load matching.
Enhanced Reliability
Lowers compressor discharge temperature, extending equipment service life.
EVI(Enhanced Vapor Injection) is an advanced refrigeration cycle for vapor compression that improves efficiency of the heat pump under low ambient conditions.
Two-Stage Compression with Flash Tank:
Subcooled liquid refrigerant turns into intermediate pressure vapors inside a flash tank which is then injected into the compressor's mid-stage port.
Effectively reduces the temperature of discharge while increasing the refrigerant mass flow.
Optimized Subcooling & Capacity
The flash tank is designed to ensure that liquid refrigerant gets subcooled prior to the evaporator, thereby increasing the effectiveness of evaporation.
Mid-compression injection increases system capacity but does not add excessive compressor load.
Panasonic Rotary Compressor
Around 10 percent more efficient than conventional R410A models.
Reduced operating noise due to the rotor's dynamic balance optimization.
The unit operates across a broad range of temperatures, from -25°C to 45°C.
CAREL Electric Expansion Valve
Controls precision, high accuracy, low failure rate and longer service longevity.
A bidirectional flow of refrigerant.
Control with high precision and a wide size range.
Hermetically welded versions that have stainless steel bodies and copper connections that help reduce the loss of refrigerant.
Temperature of refrigerant up to 100°C.
Solutions with integrated drivers.
CAREL INVERTER POWER
Specifically designed to be driven by BLDC compressors.
Protection functions that are dedicated to you.
1ph and 3ph are Active or Passive EMc filters.
High quality certifications (CE, UL, Safety, EMC..).
Modbus connectivity integrated Modbus connectivity
CAREL PRESSURE TRANSDUCERS (SPKT / SPKS)
High accuracy and precise measurement. EMC protection
CAREL - TEMPERATURE SENSORS
The most modern technology for this compressor as well as the entire system. heat pump can provide hot water up to temperatures of up to 75 degrees Celsius which makes it ideal for:
Fast reading sensors for fast response for superheat control.
High temperature sensors to read the compressor discharge temperature.
As a renewable heating system, this SPRSUN R32 series EVI DC Inverter Air Source Heat Pump features an output of 22kW. It adopts the Panasonic rotary compressor and significantly improves the problem of insufficient heating efficiency at low temperatures. It also features a 5-inch touch screen, offering you a convenient and all-in-one control experience. You may easily control the temperature and switch the modes via the colorful screen. Its maximum heating capacity can reach up to 22KW, and maximum cooling capacity reaches up to 20.1KW, providing you with a powerful system and high efficiency, whether it's for heating or cooling.
In addition, this low-temperature air source heat pump produces low noise and offers you a quiet environment, perfect for properties in cold areas or cold climates as it uses the outdoor air as its heat source in the winter and heat sink in the summer. Quote for SPRSUN EVI DC Inverter Air Source Heat Pumps now!
A. Higher Energy Efficiency (Lower Operating Costs)
R32 is around 10% more the latent heat of vaporization that R410A which improves the efficiency of heat transfer.
B. Lower Global Warming Potential (GWP)
R32 has an GWP of 675. It's within the post-2030 EU F-Gas Regulation's limit of GWP less than 700, which is a good indicator of sustainability over the long term. R32 is a gas with an ODP of 0 which makes it an environmentally sustainable option.
C. System Compatibility & Cost EfficiencyDirect replacement for Straight replacement of R410A which reduces retrofit cost. Requires 30 percent lower refrigerant consumption than R410A for the same cooling capacity.
Full DC Inverter Technology
The most recent fully DC inverter technology incorporates CAREL the system's adaptive controls to ensure exact energy management.
By dynamically altering defrost and pressure cycles, it dramatically increases efficiency while also reducing the power consumption in every operating condition. The advanced rotary compressor and optimized design of the system ensures high stability and reduce noise levels.
Advanced Noise Reduction
The noise levels of R32's R32 DC heating unit inverter begin at 42 dBA. It is the quietest unit in our DC inverter range.
A. Silent Compartment Technology
This technology comes with a specially-designed chamber made from composite materials that include sheet metal and high-density noise-absorbing foam that is designed to "trap" the noise produced by the compressor. It drastically reduces noise levels and enhances peace of mind.
B. Multi-layer Noise Reduction Technology
Blade Design for Airflow Noise Reduction
Variable Frequency Noise Reduction Design
Sound-Absorbing Foam for Sheet Metal
Intelligent Control System
The smart system is based on an intelligent control mechanism which is distinguished by a low rate of failure and steady operation. It also allows remote monitoring in real-time of the system's operating status, updates with a single click as well as intelligent defrosting.
Real-time Monitor
The smart control system is able to check the operating condition for the heating system in real-time and issue timely alarms in the event of any anomalies.
High Immunity
Effective Handling Of Voltage Fluctuations And Rapid Climate Shifts
Enhanced Efficiency
The Smart System Leverages the Compressor Operating Envelope to Achieve Peak Efficiency
Short Defrost Cycle:
H04: Ambient temperature for defrosting - 15°C
H07: Defrosting environment and evaporator coil temperature difference 1 - 7°C
H08: Defrosting period 1 - 45min
Medium Defrost Cycle:
H09: Ambient temperature for defrosting - minus 2°C
H10: Defrosting environment and evaporator coil temperature difference 2 - 6°C
H11: Defrosting period 2 - 60min
Extended Defrost Cycle:
H12: Ambient temperature for defrosting - minus 10°C
H13: Defrosting environment and evaporator coil temperature difference 3 - 5°C
H14: Defrosting period 3 - 90min
The front grille has the seamless sheet metal design to give a minimalist and sleek design.
The frame for the air outlet and the entire unit are clad with contrasting grey and matte black hues and adds to the overall design.
The use of serrated aluminum alloy fan blades greatly reduces the sound of wind.
The compressor has dual shock absorption, thereby minimising resonance and noise created due to the operation at high frequencies compressor.
Pipes for water inlet and outlet release water at the rear of right.
Key Advantages:
High Efficiency in Extreme Cold
Keeps its superior heating efficiency even at -25degC. the COP being significantly higher than conventional heat pump and reducing the dependence on electric heating.
Inverter Synergy
The volume of vapor is adjusted dynamically in conjunction using variable-frequency speed control to provide precise load matching.
Enhanced Reliability
Lowers compressor discharge temperature, extending equipment service life.
EVI(Enhanced Vapor Injection) is an advanced refrigeration cycle for vapor compression that improves efficiency of the heat pump under low ambient conditions.
Two-Stage Compression with Flash Tank:
Subcooled liquid refrigerant turns into intermediate pressure vapors inside a flash tank which is then injected into the compressor's mid-stage port.
Effectively reduces the temperature of discharge while increasing the refrigerant mass flow.
Optimized Subcooling & Capacity
The flash tank is designed to ensure that liquid refrigerant gets subcooled prior to the evaporator, thereby increasing the effectiveness of evaporation.
Mid-compression injection increases system capacity but does not add excessive compressor load.
Panasonic Rotary Compressor
Around 10 percent more efficient than conventional R410A models.
Reduced operating noise due to the rotor's dynamic balance optimization.
The unit operates across a broad range of temperatures, from -25°C to 45°C.
CAREL Electric Expansion Valve
Controls precision, high accuracy, low failure rate and longer service longevity.
A bidirectional flow of refrigerant.
Control with high precision and a wide size range.
Hermetically welded versions that have stainless steel bodies and copper connections that help reduce the loss of refrigerant.
Temperature of refrigerant up to 100°C.
Solutions with integrated drivers.
CAREL INVERTER POWER
Specifically designed to be driven by BLDC compressors.
Protection functions that are dedicated to you.
1ph and 3ph are Active or Passive EMc filters.
High quality certifications (CE, UL, Safety, EMC..).
Modbus connectivity integrated Modbus connectivity
CAREL PRESSURE TRANSDUCERS (SPKT / SPKS)
High accuracy and precise measurement. EMC protection
CAREL - TEMPERATURE SENSORS
The most modern technology for this compressor as well as the entire system. heat pump can provide hot water up to temperatures of up to 75 degrees Celsius which makes it ideal for:
Fast reading sensors for fast response for superheat control.
High temperature sensors to read the compressor discharge temperature.
