Process Heating Solutions for the Pulp & Paper Industry
In 1945, Pick Heaters developed and patented a unique concept of Direct Steam Injection Heating. The original approach has remained unaltered...keep it simple and self-stabilizing, minimize moving parts and make it completely reliable regardless of operating environment. It is this design philosophy that has Pick at the heart of heating for over 60 years in industries ranging from pulp and paper to food, chemical and pharmaceutical processing.
Direct Steam Injection is much more energy efficient than its competitive method, Indirect Heat Exchange.
In Direct Steam Injection, steam is instantly blended into the process fluid, resulting in 100% heat transfer with full use of both the latent and sensible heat. There is no condensate to trap and recover.
100% of your costly BTU's are used.
Pick injects steam under pressure directly into the liquid. Because 100% of the steam is instantly condensed into the liquid, 100% of the BTU's are used.
Because the Pick Direct Steam Injection system is 100% energy efficient, it can save up to 28% of the fuel required with indirect heat exchangers. The fuel savings with a Pick heater will pay for the heater many times over during the life of the system.
But, What Happens To The Condensate?
Indirect heat exchangers do not consume steam, resulting in condensate. The condensate is then discharged through a trap and returned to a flash tank. A portion of the condensate is lost due to flashing and must be replaced with cold water.
With Pick Heaters, you simply do not have to give condensate a second thought. The condensate is USED, not lost. It contributes to the discharge stream. The total water consumption is unchanged. Elimination of flash losses yields improved energy efficiency and reduced operating costs. Steam is completely consumed and no condensate is returned. Flash losses are eliminated, as is the need for a flash tank.
A Pick Representative can show you how a Pick Heater can reduce not only your energy bills, but your total operating costs. For further information, please visit: