Thermo Scietific Blue-M Circulating Water Baths are all-stainless steel with an advanced microprocessor control that provides simple, accurate and repeatable temperatures. An adjustable high-limit control prevents over-temperature conditions and can be set for any point in the operating range. It interrupts the heat and flashes a visual warning when temperature is exceeded and automatically resets with temperature returns below set-point. A factory-set 105ºC over-temperature safety is also included.
Baths have a high-strength cabinet construction with 304 stainless-steel interior tanks. The recessed control module protects against dirt and moisture. A single-stage centrifugal pump with independent supply/return ports provides maximum circulation power. Rounded corners and drain with on/off valve simplify cleaning.
Refrigerated Model EF28890DD allows accurate control of temperatures below ambient conditions. It features a quiet-running, hermetically-sealed refrigeration module. The modular design includes an independent ON/OFF switch for applications that require only ambient temperature. For temperatures below 10°C a 60/40 mix of ethylene glycol and water should be used to prevent icing.
Each bath includes a reversible dual-depth stainless-steel rack, temperature probe, 10ft. (3m) power cord with plug and mounting clip for immersion glass thermometer (thermometer sold separately). EF28890DD also includes an additional power cord for the chiller unit and hoses/gear clamps for connection between the bath and chiller. UL- listed; CSA-approved. 1-year parts warranty. Order polycarbonate or stainless steel gable covers separately.
EF28890DD is too heavy or too large to ship via UPS. Commercial truck shipping costs vary. For exact shipping costs please contact Daigger at 800-621-7193.
Adjustable high-limit control flashes visual warning if set temp is exceeded
Industrial-strength pump is durable and provides excellent uniformity
Specifications for Blue-M Circulating Water Baths
Ambient +5 to 100°C 0° to 100°C with Refrigerated Model