Abstract
Experimental study of influence of fine drop moisture and contaminants in heat carrier on coefficient of heat removal of vortex heat exchanger of gas control station heating system
Highlights
The relevance of energy saving and environmental safety issues in the construction and operation of buildings for various purposes is no doubt [1, 2, 3, 4, 5]
Heat transfer coefficient was studied under conditions close to actual operating conditions of vortex heat exchange element, when fine moisture and specific contaminants are present in natural gas in contact with water
As a result of the first stage of this experimental study, it was found that experimental values of coolant temperature decrease due to heat extraction for liquid evaporation on the surface of swirling swirler blade in vortex heat exchanger are slightly different from those proved theoretically
Summary
The relevance of energy saving and environmental safety issues in the construction and operation of buildings for various purposes is no doubt [1, 2, 3, 4, 5]. A feature of gas control station operation is gas pressure control which is coming from the line to consumers. It is necessary to install pressure regulators for this purpose. These regulators should operate at a sufficiently high difference of input and output pressure values (from 3.5 and more times) with unclaimed repayment of excess energy. The use of a significant potential of pressure drop energy between natural gas pipelines [6, 7] is possible when using a vortex heat exchanger, which can be used as an element of the heating system of gas distribution room
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