MODEL NAME
RATED COOLING STANDARD
CAPACITY (kW) POWER CONSUMPTION (kW)
CS-A24BD3P/CU-A24BBP5 6.50 2.59
CS-A28BD3P/CU-A28BBP5 7.30 2.69
CS-A28BD3P/CU-A28BBP8 7.30 2.69
CS-A34BD3P/CU-A34BBP5 10.45 3.95
CS-A34BD3P/CU-A34BBP8 10.45 3.65
CS-A43BD3P/CU-A43BBP8 13.00 4.53
CS-A50BD3P/CU-A50BBP8 14.50 5.10
CS-A24BD3P/CU-C24BBP5 6.50 2.59
CS-A28BD3P/CU-C28BBP5 7.30 2.69
CS-A28BD3P/CU-C28BBP8 7.30 2.69
CS-A34BD3P/CU-C34BBP5 10.45 3.95
CS-A34BD3P/CU-C34BBP8 10.45 3.65
CS-A43BD3P/CU-C43BBP8 13.00 4.53
CS-A50BD3P/CU-C50BBP8 14.50 5.10
- Calculation of actual cooling capacity and power consumption
Example / CS-A28BD3P / CU-C28BBP8
- Calculation of the actual cooling capacity and power consumption
for the following cooling conditions: Indoor temperature of 18°C
(wet-bulb temperature) and outdoor temperature of 40°C (dry-bulb
temperature).
Calculation method
- Find the cooling capacity ratio and power consumption ratio from
the cooling capacity graph and power consumption graph for
model CS-A28BD3P / CU-C28BBP8.
1. The cooling capacity ratio indicated at the intersection between
an outdoor unit heat exchanger inlet air temperature of 40°C on
the horizontal axis and an indoor unit heat exchanger inlet
temperature on 18°C is 0.92.
2. The cooling power consumption ratio from the same intersection
on the power consumption graph is 1.02.
- Thus, / Actual cooling capacity = cooling capacity ratio x rated
cooling = 0.92 x 7.80 = 7.18 (kW)
Actual cooling power consumption = cooling power consumption
x rated power consumption = 1.02 x 2.70 = 2.75 (kW)
15.2. PERFORMANCE DATA
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