Maglev Compressor
Maglev Compressor
- Integrated electronic control module
- Oil-free operation, Maintenance-free
- 2A low-current starting
- 4-stage compression with a compression ratio of 12
- Temperature accuracy of ±0.1°C
- Lifespan of over 30 years
HEATRAY full range of magnetic levitation chillers, high-temperature water source heat pumps, air source heat pumps, direct expansion units and other products are equipped with independently developed refrigerant compressors, embodying excellent performance such as “high pressure ratio, high COP, high IPLV, more energy-saving, more environmentally friendly and more reliable”.
Maglev compressor working principle
A maglev (magnetic levitation) compressor heat pump utilizes magnetic levitation technology to reduce friction and improve efficiency in its compressor, leading to enhanced energy efficiency and potentially higher operating temperatures for the heat pump. Instead of traditional mechanical bearings, magnetic bearings suspend the rotor (the rotating part) using magnetic fields, minimizing friction and eliminating the need for lubrication.
1. Magnetic Levitation:
- Maglev bearings work on the principle of magnetic repulsion and attraction. Similar magnetic poles repel, while opposite poles attract.
- Electromagnets in the stator (stationary part) interact with magnets on the rotor, creating a magnetic field that suspends the rotor without physical contact.
- Sensors and controllers constantly adjust the magnetic field to maintain the rotor's position and stability.
2. Compressor Operation:
- In a heat pump, the compressor is a key component that increases the pressure and temperature of the refrigerant.
- Maglev technology allows the compressor's rotor to spin at high speeds with minimal friction, enabling higher efficiency and potentially greater temperature lifts.
- The compressed refrigerant then flows through the heat pump's cycle, transferring heat from a source (like outside air) to a destination (like your home).
3. Heat Pump Cycle:
- The maglev compressor is just one part of the heat pump's overall cycle.
- The cycle involves evaporation (absorbing heat), compression (increasing temperature), condensation (releasing heat), and expansion (reducing pressure).
- The maglev compressor's efficiency contributes to the overall performance of the heat pump, potentially leading to higher heating or cooling capacities.
Oil-free design, low noise and enviroment protection
2A low-current startup
More Precise Refrigerant and Temperature Control
Wind Operation, Large Cooling Capacity
Matched Multi Compressors, Shared Fluorine System
Integrated Design Customized According to non-standard Requirements
- The world's first maglev 4-stage compressor IPLV up to 11.58, COP up to 7.2 Suitable for interior operating conditions of -50°C to 150°C
- Meets cooling -30°C and heating 130°C National Level 1 Energy Efficiency Certification UFRC algorithm + PID + negative feedback
Contact Details
- +91 8424010203
- info@heatraysolar.com
- 108, Prabhadevi Unique Industrial Premises Co-Op. Society Limited, Veer Savarkar Marg, Prabhadevi, Mumbai – 400025, India.