Another important energy saving heat exchanger manufacturers that should always be considered when using the Bohydogas refrigerant is the design of the heat exchangers. Since the primary role of the heat exchangers is to convert the refrigerant gas into a usable form for the bathers in the pool, it is imperative that the design of the heat exchangers is such that it will be able to withstand extreme temperatures. To meet this need, bphe manufacturers have designed their products with multiple passes through cooling processes.
The pass through the cooling process is used to remove heat from the incoming stream of refrigerant gas. To achieve this goal, the bphe unit uses one or more heat exchangers and this is usually done using metal plates. The metal used in these units are commonly stainless steel.
The heat transfer equation used by the bphe company is: T eff = K eff (T in) / (T max) where K eff (T eff) is the average amount of heat transferred through each square inch of bather skin per minute, T max is the maximum amount of heat transferred through each square inch of bather skin per second, and T it is the absorption level of the refrigerant gas in reference to room temperature. This equation can be written as follows: T eff = (K eff) / (T max)
The absorption level of the refrigerant gas is expressed as the following: T eff = (T in) / (T max) When considering this equation, it is important to note that it is dependent on the nature of the bather. A person with a shorter body would have a lower T eff number than those who are taller. The same rule applies when thinking about the difference in T eff between men and women.
B Phenix’s packaging material is made of high pressure air bag construction. When looking at the components inside, you will see that the sealing plates hold four compartments along the channel. Three of these compartments contain holes that allow air to flow between them, while the fourth holds the air bags themselves. These air bags are sealed in place by the presence of stainless steel seals. This seal mechanism is the reason behind the low level of back pressure that these units generate.