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Project | Units | GCS0500D | GCS0360D |
Input power | V/Hz | 400V/50Hz | 400V/50Hz |
Heat dissipation @ ring temperature 50℃ | kW | 50 | 36 |
Feed flow | L/min | 200 | 120 |
Input power @ ring temperature 50℃ | kW | 3.1 | 2.7 |
Maximum operating current | A | 6 | 5 |
Communication mode | / | ModbusRTU/TCP | ModbusRTU/TCP |
Hydraulic mule | kPa | 80 | 80 |
Overall dimensions (width * depth * height) | mm | 2300*1000*750 | 2000*1000*600 |
Installation | / | Top mounted | Top mounted |
Noise level (@1.7m high, 1.5m far) | dB(A) | ≤70(@Circumstance temperature ≤40℃) | ≤70(@Circumstance temperature≤40℃) |
≤80(@Circumstance temperature>40℃,<50℃) | ≤80(@Circumstance temperature>40℃,<50℃) | ||
Waterproof and dustproof grade | / | IPX4(KW IP56) | IPX4(KW IP56) |
cooling liquid | / | 50%Glycol solution | 50%Glycol solution |
Lifespan | Years | >10 | >10 |
Surface finish | / | Electrostatic spraying(RAL7035) | Electrostatic spraying(RAL9003) |
Project | Units | GCS0250D |
MPS main powertch | V/Hz | 320~460V 50±2Hz |
APS | V/Hz | 220V±15% 50±2Hz |
Auxiliary power | W | <100 |
Cooling capacity @ ring temperature 45℃ | kW | 25 |
Feed temperature | ℃ | 30 |
Feed flow | L/min | ≥100 |
Hydraulic mule | Kpa | 100 |
Rated refrigeration input power | KW | 8.2 |
EER | W/W | 3.05 |
Maximum operating current | A | 18 |
Communication mode | / | RS485&Ethernet |
Overall dimensions (width * depth * height) | mm | 1500X1206X600 |
Installation | / | Top mounted |
Noise (@1.0m away) | dB(A) | ≤70(Circumstance temperature45℃) |
Waterproof and dustproof grade | / | IP55(KW IP56) |
Refrigerant | / | R410A |
Cooling liquid | / | 50%Polyethylene glycol solution |
Lifespan | Years | >10 |
Colors | / | Wrinkle |
Protection grade | / | C3 |
1.Improved Battery Performance:
The liquid cooling system distributes temperature more evenly, preventing the battery from overheating and thus enhancing its overall performance and stability.
During charging and discharging, it avoids uneven temperatures that could shorten the battery's lifespan.
2.Extended Battery Life:
The operating temperature of the battery is crucial to its lifespan. The liquid cooling system can maintain the battery within the optimal temperature range, reducing thermal stress and extending the battery's service life.
3.Efficient Heat Dissipation:
Compared to traditional air cooling systems, the liquid cooling system dissipates heat more efficiently. Liquids have higher thermal conductivity, enabling them to quickly draw away heat generated by the battery.
4.Reduced Volume and Noise:
Due to its higher efficiency, the liquid cooling system typically occupies less space than air cooling systems and produces less noise during heat dissipation, making it suitable for environments sensitive to noise.
5.Better Temperature Control:
The liquid cooling system allows for more precise temperature control of the battery, avoiding localized overheating or overcooling, and thus improving the efficiency of charging and discharging.
6.Adaptability to High-Power Applications:
In high-power, high-frequency charging and discharging scenarios, the liquid cooling system can better manage extreme heat generation, ensuring the battery operates safely and stably under high loads.
