Full DC Inverter Air Source Heat Pumps
Integrated systems providing heating, cooling.
High-Efficiency Heat Pump Systems
R32 & R290 Refrigerants / Photovoltaic Direct Drive / Monobloc & Split Configurations
- EVI DC-Inverter Compressors for stable, high-frequency operation.
- Photovoltaic direct-drive for optimized energy consumption.
- Jet enthalpy & smart defrosting for low-temperature heating.








George: Heat Pump and HVAC Equipment Manufacturer
George manufactures HVAC equipment and air source heat pump systems designed for heating, cooling, and hot water applications. Our product line includes R32 and R290 DC inverter heat pumps, available in monobloc and split configurations. These systems are utilized across commercial, industrial, and residential projects. We produce climate control equipment according to established engineering standards and quality protocols.
We supply heat pump systems configured to specific project loads and structural requirements, including photovoltaic direct-drive units and heat recovery systems. Supported by our technical department and manufacturing facilities, George provides climate management equipment for international distribution.
Parameter table
Our residential air source heat pumps integrate full DC inverter technology with photovoltaic direct drive systems to provide stable heating, cooling, and hot water production. The system automatically adjusts compressor frequency based on load requirements, maintaining operational stability in ambient temperatures as low as -38°C. We offer both monobloc and split configurations to meet specific installation parameters.
R32 DC Inverter PV Powered Monobloc Heat Pump
R32 DC Inverter PV Powered Split Heat Pump
R290 DC Inverter Monobloc Heat Pump
Our commercial air source heat pump systems are engineered for large-scale applications, featuring modular connection capabilities and stable operation down to -38°C ambient temperatures. The commercial series includes units capable of reaching a maximum water outlet temperature of 60°C. These systems utilize R32 and R410A refrigerants and offer specialized configurations, including heat recovery systems and photovoltaic power integration for complex commercial environments.
PV Powered Commercial Heat Recovery Supermarket Heat Pump
R32 DC Inverter Commercial Heat Pump
Geothermal-Water Inverter Heat Pump
Our pool heat pump systems are engineered for residential and commercial water temperature regulation. The units are equipped with titanium heat exchangers for corrosion resistance and support operational ambient temperatures ranging from -25°C to 43°C. Utilizing R32 and R410A refrigerants, these systems provide stable heating and cooling capacities for constant temperature swimming pool configurations.
R32 Inverflex Chiller Heat Pump
R32 ABS/Metal Case Inverdual Pool Heat Pump
Poolfix Commercial Pool Heat Pump
Our heat pump systems utilize industry-standard core components to ensure operational stability and energy efficiency. The internal architecture integrates frequency conversion compressors, precision control valves, and specialized heat exchange modules. These components work in tandem to optimize the refrigerant cycle and maintain performance across varying climatic conditions.
EVI DC-Inverter Compressors
High-Efficiency Heat Exchangers
Electromagnetic Control Valves
Heat Pump Quick Buyer Guide
| Application Scenario | Recommended Heat Pump Series | Key Technology & Refrigerant | Project Scale |
|---|---|---|---|
| Whole-house heating, cooling & DHW | R32 DC Inverter Monobloc / Split Heat Pump | Full DC Inverter, R32 Refrigerant | Residential |
| Solar-integrated climate control | R32 DC Inverter PV Powered Heat Pump | PV Direct Drive, Smart Defrosting | Residential |
| Commercial heating & cooling | Commercial Air Source Heat Pump | Modular Connection, R32 / R410A | Commercial / Industrial |
| Supermarket climate & food refrigeration | PV Powered Heat Recovery Supermarket Heat Pump | Heat Recovery System, PV Powered | Medium – Large Commercial |
| Ground or water source utilization | Geothermal-Water Inverter Heat Pump | Tube / Plate Heat Exchanger, R410A / R32 | Medium – Large Commercial |
| Constant temperature swimming pools | R32 Inverflex / Inverdual Pool Heat Pump | Titanium Heat Exchanger, R32 | Residential / Small Commercial |
| Large-scale aquatic centers | Poolfix Commercial Pool Heat Pump | Titanium Heat Exchanger, R410A | Large Commercial |
Consult our technical team for custom heat pump system integration.
About Our Heat






FAQ
What is the minimum operating ambient temperature for the air source heat pumps?
Modern DC inverter air source heat pumps are engineered to operate stably in extreme climates. Utilizing jet enthalpy increase and intelligent defrosting technologies, the systems maintain continuous heating capacity at ambient temperatures as low as -38°C without mechanical failure.
How do R32 and R290 refrigerants impact the system's Coefficient of Performance (COP)?
R32 and R290 refrigerants possess superior thermodynamic properties that significantly enhance thermal exchange efficiency. Compared to legacy refrigerants, they deliver a higher COP while operating with a considerably lower Global Warming Potential (GWP), thereby reducing overall electrical power consumption.
Can the heat pump system integrate directly with existing photovoltaic (PV) arrays?
Yes. PV direct-drive heat pumps are specifically configured to prioritize solar energy consumption. During periods of insufficient solar yield (such as cloudy days or nighttime), the system’s controller automatically compensates with grid power to ensure uninterrupted heating, cooling, or hot water production.
What are the site and infrastructural requirements for commercial heat pump deployment?
Proper deployment requires a stable load-bearing foundation and calculated clearance parameters to ensure unobstructed airflow for the fin heat exchangers. Furthermore, all electrical connections and water piping integration must be executed by a certified installation team or professional installers to ensure system integrity and compliance with local safety standards.
What is the recommended maintenance schedule to ensure long-term thermal efficiency?
For commercial and industrial applications, it is standard practice to conduct comprehensive bi-annual inspections. Installers should regularly verify the operational pressure of the EVI-inverter compressors, inspect the plate heat exchangers for scaling, and ensure the electromagnetic control valves respond accurately to system logic.