Temperature range -30~ 95 ℃, Temperature Fluctuation +/- 0.05 ℃, dual Compressor refrigeration system to ensure rapid cooling, overall foaming Tank body to reduce cooling loss, circulating stirring design to ensure Temperature uniformity.
The double Compressor and cascade refrigeration system are used to cool down quickly and have low noise; the overall foaming insulation of the Tank body reduces the loss of cooling capacity, the flow rate of the circulating pump is 10L/min to ensure Temperature uniformity, and the Temperature Fluctuation is only +/- 0.05 ℃.
Temperature range -20~ 95 ℃, Temperature Fluctuation +/- 0.05 ℃, dual Compressor refrigeration system is used for rapid cooling, the overall foaming and heat insulation of the Tank body reduces the loss of cooling capacity, and circulating stirring ensures Temperature uniformity.
Imported Pt100 temperature sensor, Temperature range -30~ 95 ℃, Temperature Fluctuation +/- 0.05 ℃, double Compressor cascade refrigeration system to ensure rapid cooling, overall foaming process to reduce cooling loss, circulating stirring design to ensure Temperature uniformity.
The double Compressor refrigeration system is adopted to ensure rapid cooling, the overall foaming and heat insulation of the Tank body reduces the loss of cooling capacity, the flow rate of the circulating pump is 8L/min to ensure the uniformity of the liquid, and the Temperature Fluctuation is only +/- 0.05 ℃.
Temperature range -40~ 95 ℃, Temperature Fluctuation +/- 0.05 ℃, dual Compressor refrigeration system to ensure rapid cooling, overall foaming process to reduce cooling loss, circulating stirring design to ensure Temperature uniformity.
Temperature range -50~ 100 ℃, temperature resolution of 0.01 ℃, fully enclosed Compressor refrigeration and 304 stainless steel liner, equipped with 10L/min circulating pump and removable side panels for easy cleaning and maintenance.
Imported PT100 temperature sensor and double Compressor cascade refrigeration system, high refrigeration efficiency and low noise, Temperature Fluctuation +/- 0.05 ℃, Tank volume 30L, Circulating pump Flow rate 10L/min to ensure Temperature uniformity.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, with a Temperature Uniformity of +/- 0.05 ° C, and is equipped with multiple Safety protection devices including low water level protection and temperature runaway alarm functions.
Temperature range -20~ 100 ℃, temperature resolution 0.1 ℃, fully enclosed Compressor refrigeration and 304 stainless steel liner, equipped with high-performance circulating pump and multiple safety protection devices to ensure stable operation.
Temperature Fluctuation +/- 0.1 ℃, Temperature range + 5~ 99 ℃, with Sensor fault alarm and over-temperature protection function, built-in circulating water pump supports internal and external thermostatic water flow output.
Adopt non-heat centrifugal circulating pump to avoid temperature field interference, Temperature Uniformity up to +/- 0.05 ℃, equipped with multiple Safety protection devices, optional program temperature control and Communication interface to meet diverse experimental needs.
Temperature range -80~ 95 ℃, Temperature Fluctuation +/- 0.05 ℃, double Compressor cascade refrigeration system to ensure rapid cooling, overall foaming process to reduce cooling loss, circulating stirring design to ensure Temperature uniformity in the Tank.
Adopt non-heat centrifugal circulating pump to avoid self-heating effect, Temperature Uniformity +/- 0.05 ℃, equipped with multiple Safety protection including low water level anti-dry burning and Compressor over-current protection to ensure the safety and stability of the experiment.
The non-heat centrifugal circulating pump is used to ensure uniform insulation field, Temperature Uniformity up to +/- 0.05 ℃, equipped with multiple Safety protection devices such as low water level anti-dry burning and Compressor overcurrent protection, optional temperature control and external Sensor to enhance application flexibility.
