All-Russia Thermal Engineering Institute experience in using difficult to burn fuels in the power industry

All-Russia Thermal Engineering Institute experience in using difficult to burn fuels in the power industry

This article presents the results of the research carried out at the All-Russia Thermal Engineering Institute (VTI) aimed at using saline coal, municipal solid waste and bark waste, sunflower husk, and nesting/ manure materials from poultry farms. The results of saline coal burning experience in Tro...

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Bibliographic Details
Published in:Thermal engineering Vol. 63; no. 7; pp. 455 - 462
Main Authors: Tugov, A. N., Ryabov, G. A., Shtegman, A. V., Ryzhii, I. A., Litun, D. S.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-07-2016
Subjects:
95th Anniversary of the All-Russia Thermal Engineering Institute
Engineering
Engineering Thermodynamics
Heat and Mass Transfer
burning
waste
biomass
environment
boiler heating surface corrosion
saline coal
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Summary:This article presents the results of the research carried out at the All-Russia Thermal Engineering Institute (VTI) aimed at using saline coal, municipal solid waste and bark waste, sunflower husk, and nesting/ manure materials from poultry farms. The results of saline coal burning experience in Troitsk and Verkhny Tagil thermal power plants (TPP) show that when switching the boiler to this coal, it is necessary to take into account its operating reliability and environmental safety. Due to increased chlorine content in saline coal, the concentration of hydrogen chloride can make over 500 mg/m 3 . That this very fact causes the sharp increase of acidity in sludge and the resulting damage of hydraulic ash removal system equipment at these power stations has been proven. High concentration of HCl can trigger damage of the steam superheater due to high-temperature corrosion and result in a danger of low-temperature corrosion of air heating surfaces. Besides, increased HCl emissions worsen the environmental characteristics of the boiler operation on the whole. The data on waste-to-energy research for municipal solid waste (MSW) has been generalized. Based on the results of mastering various technologies of MSW thermal processing at special plants nos. 2 and 4 in Moscow, as well as laboratory, bench, and industrial studies, the principal technical solutions to be implemented in the modern domestic thermal power plant with the installed capacity of 24 MW and MSW as the primary fuel type has been developed. The experience of the VTI in burning various kinds of organic waste—bark waste, sunflower husk, and nesting/manure materials from poultry farms—has been analyzed.
ISSN:0040-6015
1555-6301
DOI:10.1134/S0040601516070089