Heating circulating bath 22-HCB100

Heating Circulating Bath 22-HCB100 features a 22 L chamber volume with a temperature range of RT +5°C to 70°C. It features a corrosion resistant stainless-steel chamber. It is equipped with an advanced digital controller and offers an accurate temperature. It features an electromagnetic pump to ensure efficient fluid circulation. Our heating circulating bath have nonslip rubber feet for enhanced stability during operation.

$2,011.00 $ 1676

Heating circulating bath 22-HCB100 - Specifications

Chamber volume 22 L
Temperature Range RT (+ 5 ℃ to 70 ℃)
Temperature Stability ± 0.3 ℃
Timing Range 1 to 999 min
Power Consumption 1000 W
Power Supply 220 V; 50 Hz
Internal dimension (W × D × H) 500 × 300 × 150 mm
External dimension (W × D × H) 600 × 300 × 170 mm

Heating circulating bath 22-HCB100 - Key Features

  • Digital temperature controller (RT+5 °C to 70 °C)
  • Electromagnetic pump circulation system
  • Programmable timer function
  • Low-liquid safety alarm
  • Stainless steel bath chamber

Heating circulating bath 22-HCB100 - Applications

FunctionImplementation
Sample incubationMaintaining stable thermal conditions for biological assays
Reagent preparationControlled warming of chemical solutions
Microbiological testingSupporting culture growth & analysis workflows
Cell researchTemperature-controlled environment for cultivation
Analytical laboratoriesPrecise thermal conditioning for testing procedures

Heating circulating bath 22-HCB100 - Catalog

Related Heating Circulating Bath

Lab Expo Heating Circulating Bath supports controlled heating and fluid circulation where stable temperature uniformity is required for laboratory processing and sample conditioning. The system operates with digitally regulated temperature control and an electromagnetic circulation pump to maintain consistent thermal distribution. Stainless steel build supports corrosion resistance, while integrated timing functions and visual and audible protection alerts ensure controlled operation and repeatable heating performance during continuous use.