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Water Chiller Temperature Stability 01℃ Test

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  • High Power And Ultrafast S&A Laser Chiller CWUP-40 ±0.1℃ Temperature Stability Test
    High Power And Ultrafast S&A Laser Chiller CWUP-40 ±0.1℃ Temperature Stability Test
    Having watched the previous CWUP-40 Chiller Temperature Stability Test, a follower commented that it is not accurate enough and he suggested to test with scorching fire. S&A Chiller Engineers quickly accepted this good idea and arranged a “HOT TORREFY ” experience for the chiller CWUP-40 to test its ±0.1℃ temperature stability. First to prepare a cold plate and connect the chiller water inlet & outlet pipes to the cold plate’s pipelines. Turn on the chiller and set the water temperature at 25℃, then paste 2 thermometer probes on the water inlet and outlet of the cold plate, ignite the flame gun to scorch the cold plate. The chiller is working and the circulating water quickly takes away the heat from the cold plate. After 5-minute burning, the temperature of chiller inlet water rises to about 29℃ and can not go up anymore under the fire. After 10 seconds off the fire, the chiller inlet and outlet water temperature quickly drop to about 25℃, with temperature difference stable within the range of ±0.1℃. Clearly, even under high temperature “torrefy”, this chiller can still play its high-precise temperature control ability to full.
  • S&A Ultrafast Laser Chiller CWUP-40 Temperature Stability 0.1℃ Test
    S&A Ultrafast Laser Chiller CWUP-40 Temperature Stability 0.1℃ Test
    Recently, a laser processing enthusiast has bought the high-power and ultrafast S&A laser chiller CWUP-40. Having opened the package after its arrival, they unscrew the fixed brackets on the base to test whether the temperature stability of this chiller can reach ±0.1℃. The lad unscrews the water supply inlet cap and fills pure water to the range within the green area of the water level indicator. Open the electrical connecting box and connect the power cord, install the pipes to the water inlet and outlet port and connect them to a discarded coil. Put the coil in the water tank, place one temperature probe in the water tank, and paste the other to the connection between the chiller water outlet pipe and the coil water inlet port to detect the temperature difference between the cooling medium and chiller outlet water. Turn on the chiller and set the water temperature to 25℃. By changing the water temperature in the tank, the chiller temperature control ability can be tested. After pouring a large pot of boiling water into the tank, we can see the overall water temperature suddenly rises to about 30℃. The circulating water of the chiller cools the boiling water through the coil, since the water in the tank does not flow, the energy transfer is relatively slow. After a short period of effort by S&A CWUP-40, the water temperature in the tank finally stabilizes at 25.7℃. Only 0.1℃ difference from 25.6℃ of the coil inlet.Then the lad adds some ice cubes to the tank, the water temperature suddenly drops, and the chiller begins to control the temperature. Finally, the water temperature in the tank is controlled at 25.1℃, coil inlet water temperature maintains at 25.3℃. Under the influence of complex ambient temperature, this industrial chiller still shows its high-precision temperature control. 
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