How to save energy in the vacuum chamber refrigeration heating thermostat control unit
In the environment of energy-saving emission reduction operation, how to operate the LNEYA vacuum chamber cooling and heating constant temperature control unit is very important. Next, let's take a look at the vacuum reduction of several vacuum chamber refrigeration heating thermostat control units. See how to use it.
The very important first step in the selection of the vacuum chamber cooling and heating thermostat control unit is that the cooling capacity is too small, which affects the production, and often loses more than the loss; however, the excessive cooling capacity will inevitably increase the cost of the enterprise and cause unnecessary waste. It is recommended that the manufacturer introduce the detailed process in the process of purchasing the vacuum chamber cooling and heating thermostat control unit, so that the professional personnel can calculate the appropriate vacuum chamber cooling and heating thermostat control unit model, the object to be cooled and the required cooling down. The time required for the temperature.
In this process, we must pay attention to some manufacturers to do small articles on the cooling capacity, often exaggerating the energy efficiency ratio, in fact, these things can pay attention to the tricky ones, there are related data to show the cooling power theoretically. Data, in the actual production process, the cooling capacity will be lower than the theoretical value, according to the actual situation of the environment, the cooling capacity will fluctuate.
The vacuum chamber refrigeration heating constant temperature control unit increases the evaporation temperature under the premise of ensuring the production demand and meeting the safety of equipment or products, and appropriately reduces the condensation temperature and increases the flow rate of the cooling tower to ensure the cooling water effect;
Improve the routine daily maintenance work of the vacuum chamber refrigeration heating constant temperature control unit, regularly clean the pipeline, reduce the pipe resistance and prevent pipe fouling, increase the flow rate, ensure the evaporator and condenser fully replenish water, enhance the heat exchange efficiency, and clean the water source. In the long-term use process, calcium carbonate and magnesium carbonate deposition pipelines will be generated, which will affect the heat exchange efficiency and increase the power required for the operation of the equipment, so that the electricity cost will increase substantially, and the enterprise cost will be increased invisibly.
The LNEYA vacuum chamber refrigeration heating constant temperature control unit adopts a fully enclosed pipeline. During the operation, the energy consumption ratio of the vacuum chamber cooling and heating constant temperature control unit can be reduced to a certain extent, so that the vacuum chamber refrigeration heating constant temperature control unit operates efficiently.