The Snow River® Cascade Thermal chiller is the most flexible closed loop cooling and heating system offered by Abbess. This system utilizes both high and low stage compressors that work together to achieve the desired temperature with higher efficiency and deeper reach than a single stage or liquid nitrogen (LN2) system. Additionally, these systems eliminate the high running cost of liquid nitrogen systems and offer precise control across a wide range of temperatures from -96C to +200C. A cost-effective solution for reliable, stable and precise thermal control systems.

Eliminates high running cost associated with liquid nitrogen used in open loop cry cooling and freon used in large-scale refrigeration systems. These systems provide a significantly improved return on investment compared to other ultra-low temperature cooling systems.

Controllable bath temperature provides for a better temperature gradient across load at steady state temperatures. Reduced cold spots that are experienced with liquid nitrogen cooling.

Independent thermal load and bath control allows for fast and precise temperature control!

c80-6 new
Our most Popular Cascade Chiller the C80-6

Our C80-6 Cascade Refrigeration System can be used for:

Snow River® Dimensions

Dimensions:
Total Depth: 75.16 inches (1,909 mm)
Total Height: 37.46 inches / 31.84 inches with Casters removed (951.48 mm / 808.74 mm)
Total Width: 35.12 inches (892.05 mm)
Estimated Gross Weight: 1,500 lbs (682 kg)

Snow River® Control Panel

Snow River® Theory of Operation

The Snow River® chiller contains a 20 gallon tank filled with syltherm fluid or another fluid that is used for thermal transfer. The cascade refrigeration consists of two loops: a low stage with 508b refrigerant, and a high stage with 404a refrigerant. The high stage (404a) runs continuously to cool the interstage heat exchanger which is used as a condenser by the low stage. This allows the low stage to cool thermal transfer fluid passing through its evaporator to -96C. The Snow River® can reach -96C but is recommended to run at -90C if the chiller is to be used for an extended amount of time. Running the chiller at -96C for an extended amount of time can shorten the life of the compressors. The thermal transfer fluid is constantly run through a refrigerated heat exchanger and is in contact with a heater located within the tank. The oil is blanketed with low-pressure 30 PSI of dry nitrogen to ensure that no air or no moisture condenses or freezes within the closed oil loop. The refrigeration compressors and heater are managed by the chiller’s PID controller on the front panel to achieve oil temperature set points between -96C and +200C. After exiting the refrigerated heat exchanger, a 3-way ball valve is used to direct thermal transfer fluid either directly back to its holding tank or out to the thermal process. This ball valve can be controlled by an analog 4-20mA signal/ or 0-10 Volts. This signal could come from a PLC, process PID controller, or control PC interface. 

The thermal transfer fluid within the chiller can be either pre-cooled before the test in bypass mode (ball valve closed) for quick cool-downs or can be cooled while circulating through a thermal load or process for more gradual cooling processes. In cases where the thermal transfer fluid is pre-cooled, an analog signal from an exterior source or onboard process PID controller remains low (4mA) until the desired bath temperature is reached. This low analog signal keeps the 3-way ball valve in the system “closed” and directs thermal transfer fluid directly back to the bath after exiting the refrigerated heat exchanger. This quickly cools the thermal fluid in the bath. Once the desired bath temperature is reached, the analog signal can be increased up to 20mA to “open” the three-way valve and allow fluid to flow out of the system to a chamber’s thermal plate, shroud or to another custom process. The three-way ball valve can be opened partially, and its response to the analog input is proportional, so a 4-20mA signal will open the ball valve halfway. 

Snow River® C80-6HP Expected Performance 

Figure: Shows the expected cool down rate of a C80-6HP chiller with no thermal load the cool down and rates will vary with a test article. The cool down rate to -96 °C is about 2.5 hour. 

Figure: Shows the C80-6HP chiller with a thermal load over time of varying wattages (the cool down and rates will vary with a test article). With the C80-6HP chiller you can maintain -73°C at a 3,000 W load. 

Features of Standard Chiller Systems

Optional Features of Chiller Systems

Due to the Snow River® Cascade Thermal Systems modularity and Abbess Instruments staff of skilled engineers, these systems can be configured to handle any thermal load. Abbess has been providing reliable and efficient systems for more than 30 years to industry leaders

To get an accurate quote for the system you need fill out our RFQ or call today!