A method, system and device for energy-saving control of cooling water in a refrigeration system
A technology for energy-saving control and refrigeration systems, applied in heating and ventilation control systems, heating and ventilation safety systems, heating methods, etc. Problems such as output power drop
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Embodiment 1
[0088] Embodiment 1: Analyze the total power of the system according to the temperature difference between the inlet and outlet of the cooling water pump, that is, the parameters is the temperature difference ΔT between the inlet and outlet of the cooling water pump, and the step interval between it and the adjacent value is 0.2°C.
[0089] When the cooling host load is 72.0±0.2%, the cooling water inlet temperature is 29.0±0.2℃
[0090] The current working condition parameter of the air conditioning system is △T=5.2℃, and the corresponding total system power is 468kW;
[0091] The working condition parameters in the database that meet the current set temperature are as follows:
[0092] △T=5.0℃, the corresponding total system power is 471kW;
[0093] △T=5.2℃, the corresponding total system power is 469kW;
[0094] △T=5.4℃, the corresponding total system power is 467kW;
[0095] △T=5.6℃, the corresponding total system power is 470kW;
[0096] Then the analysis process is...
Embodiment 2
[0100] Embodiment 2: Analyze the total power of the system according to the flow rate of cooling water, that is, the parameters is the cooling water flow G, and the step interval between it and the adjacent value is .
[0101] When the load of the refrigeration main engine is 91.0±0.2%, and the cooling water inlet temperature is 31.0±0.2℃, the current working condition parameter of the air conditioning system is G=506 , the corresponding total system power is 939kW;
[0102] The working condition parameters in the database that meet the current set temperature are as follows:
[0103] G=434 , the corresponding total system power is 942kW;
[0104] G=506 , the corresponding total system power is 938kW;
[0105] G=578 , the corresponding total system power is 934kW;
[0106] Then the analysis process is:
[0107] 1) Set G=506 And the corresponding total system power of 939kW is stored in the database to replace the existing G=506 in the database And the corres...
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