Use of a turboexpander in steam power units for heat energy recovery in heat supply systems

A method for raising the efficiency of a boiler plant by installing a unit operating by the organic Rankine cycle is presented. Such units allow one to generate electricity to cover the auxiliaries of a heat source at a heat-transfer fluid temperature of no more than 130°С. The results of commission...

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Bibliographic Details
Published in:Thermal engineering 2016-05, Vol.63 (5), p.360-366
Main Authors: Sadykov, R. A., Daminov, A. Z., Solomin, I. N., Futin, V. A.
Format: Article
Language:English
Subjects:
Combined-Cycle Plants and Their Accessories
Engineering
Engineering Thermodynamics
Gas Turbines
Heat and Mass Transfer
Steam Turbines
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Summary:A method for raising the efficiency of a boiler plant by installing a unit operating by the organic Rankine cycle is presented. Such units allow one to generate electricity to cover the auxiliaries of a heat source at a heat-transfer fluid temperature of no more than 130°С. The results of commissioning tests of boilers revealed that their efficiency is maximized under a load that is close or corresponds to the nominal one. If this load is maintained constantly, excess heat energy is produced. This excess may be used to generate electric energy in a steam power unit with a turboexpander. A way to insert this unit into the flow diagram of a boiler plant is proposed. The results of analysis of turbine types (turboexpanders included) with various capacities are presented, and the optimum type for the proposed flow diagram is chosen. The methodology for the design of turboexpanders and compressors used in the oil and gas industry and their operational data were applied in the analysis of a turboexpander. The results of the thermogasdynamic analysis of a turboexpander and the engineered shape of an axial-radial impeller are presented. Halocarbon R245fa is chosen as the working medium based on its calorimetric properties.
ISSN:0040-6015
1555-6301
DOI:10.1134/S0040601516030113