When the energy storage chiller is working, the high-temperature and high-pressure refrigerant gas compressed by the compressor flows into the condenser, and after heat exchange with the ambient air, it becomes a high-pressure and room temperature liquid. After the high-pressure liquid is throttled and depressurized by the expansion valve, it forms a low-temperature and low-pressure liquid, which enters the evaporator and exchanges heat with the cooling circulating water. The refrigerant absorbs heat and becomes a low-pressure, room temperature gas, which is then sucked into the compressor to form a complete refrigeration cycle. Under the driving action of the pump, the chilled water flows out of the evaporator to the water tank, and is then pumped into the liquid cooling plate of the energy storage battery to absorb the heat of the cooled equipment. The heated chilled water flows back to the evaporator for cooling, forming a complete chilled water cycle. Thus achieving temperature control of energy storage batteries.

Solution

• Energy storage chiller/air liquid CDU
• Energy storage cabinet manifold
• Branch pipeline
• Energy storage liquid cooling plate

Features

• Adopting internationally renowned brand compressors to ensure a ten-year service life of the refrigeration system
• Automatic switching between cooling and heating throughout the year
• Adopting well-known brand centrifugal water pumps with high flow and head, ensuring strong core power in the cooling water circuit
• SUS304 stainless steel pipelines undergo strict acid pickling and passivation processes to ensure system cleanliness and reliability
• Integrated automatic fluid replacement function, worry free maintenance
• Voltage stabilization function design ensures that the pressure of the liquid cooling system remains stable at all times