1. Estimate the discharge and charge conditions of the battery pack based on the whole vehicle's operating conditions; 2. Use simulations to verify the above conditions; 3. Derive the heat generation of the battery pack under discharge and charge conditions through estimation; 4. Consider system selection options (liquid cooling and air cooling); 5. Consider the heat dissipation requirements of individual batteries under normal values; 6. Design corresponding heat sinks or gaps under the given cooling conditions (for liquid cooling, it's the imported water pressure and temperature; for air cooling, it's the fan power and the temperature control of the air intake); 7. Simulate the results using fluid design software. 36V aviation power supply, 400HZ frequency conversion power supply, 115/200V power supply, 27V DC power supply, 400HZ power supply, aviation power supply
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