Thursday, August 3, 2017

Thermocompressor Breathes New Life into Low Pressure Waste Steam

steam thermocompressor
Steam Jet Thermocompressor from Spirax Sarco
mixes high pressure and low pressure steam supplies
Energy conservation and energy efficiency have contributed very large cost savings to many industrial and commercial operations over the past two decades. Projects with modest payback periods quickly begin their contributions directly to the bottom line of the balance sheet. In many instances, incorporating energy conservation and efficiency measures also improves the overall functioning of the consuming systems and equipment. In order to save energy, it is generally necessary to exercise better control over equipment or system operation by gathering more information about the current operating state. This additional information, gathered through measurement instrumentation, often finds use in other ways that improve productivity and performance.

Steam is utilized throughout many industries as a means of transferring heat, as well as a motive force. Much energy is consumed in the production of steam, so incorporating ways of recovering or utilizing the heat energy remaining in waste steam is a positive step in conservation.

A thermocompressor is a type of ejector that mixes high pressure steam with a lower pressure steam flow, creating a usable discharge steam source and conserving the latent heat remaining in the low pressure steam. The device is compact and simple, with no moving parts or special maintenance
thermocompressor labelled schematic
Schematic of basic thermocompressor, showing suction
inlet at the bottom and high pressure steam nozzle.
Image courtesy of Spirax Sarco
requirements. Two general varieties are available. The fixed nozzle style is intended for applications with minimal variation in the supply and condition of the suction steam (the low pressure steam). Some control is achievable through the regulation of the high pressure steam flow with an external control valve. A second style provides a means of regulating the cross sectional area through which the high pressure steam flows in the nozzle. This style is best applied when specific discharge flow or pressure is required, or there is significant variation in the inlet steam conditions.

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