Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants

Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants

In the conducted researches there is a task of a choice of a working body for a heat power circuit of power plants on non-aqueous working substances with possibility of considerable increase of power efficiency of a cycle and safety of operation of plants in view of restrictions of the Montreal and...

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Main Authors: Roman Gerasimov, Sergey Kolotukhin, Igor Mazurin, Andrey Sukhikh, Pavel Granchenko
Format: Article
Language:English
Published: PC Technology Center 2017-11-01
Series:Tehnologìčnij Audit ta Rezervi Virobnictva
Subjects:
power plant
working bodies of energy cycles
stability of substances
sulfur hexafluoride
Online Access:http://journals.uran.ua/tarp/article/view/119336
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spelling doaj-018ff80d82d641ca869f23241d4f254f2020-11-25T01:44:45ZengPC Technology CenterTehnologìčnij Audit ta Rezervi Virobnictva2226-37802312-83722017-11-0161(38)667710.15587/2312-8372.2017.119336119336Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plantsRoman Gerasimov0Sergey Kolotukhin1Igor Mazurin2Andrey Sukhikh3Pavel Granchenko4Stock Company «G. M. Krzhizhanovsky Power Engineering Institute», 19, Leninsky ave., Moscow, Russian Federation, 119991National Research University «Moscow Power Engineering Institute», 14, Krasnokazarmennaya str., Moscow, Russian Federation, 111250National Research University «Moscow Power Engineering Institute», 14, Krasnokazarmennaya str., Moscow, Russian Federation, 111250National Research University «Moscow Power Engineering Institute», 14, Krasnokazarmennaya str., Moscow, Russian Federation, 111250National Research University «Moscow Power Engineering Institute», 14, Krasnokazarmennaya str., Moscow, Russian Federation, 111250In the conducted researches there is a task of a choice of a working body for a heat power circuit of power plants on non-aqueous working substances with possibility of considerable increase of power efficiency of a cycle and safety of operation of plants in view of restrictions of the Montreal and Kyoto protocols. In an experimental study of the possibility of using fluorocarbon working bodies and SF6 as working bodies of energy cycles, positive results have been obtained both in terms of increasing the safety of operation of power plants and increasing their reliability, and in terms of energy efficiency. However, their use as working bodies was delayed by the extremely long lifetime in the atmosphere by the Lifetime criterion. When calculating material balances of fluorocarbons and SF6 gas in the atmosphere based on the new IPCC-2013 data, a discrepancy of four orders of magnitude of the Lifetime criterion is found with the initial data given by IPCC-94. Based on these data, restrictions are introduced on the use of these substances within the framework of the commitment of the countries participating in the Kyoto Protocol to the UNFCCC. This gives grounds for the use of fluorocarbons and SF6 gas without restrictions on the basis of the greenhouse hazard, since the lifetime of these substances in the atmosphere does not exceed 2 years. The use of fluorocarbons and SF6 gas as working bodies of energy cycles will significantly reduce energy consumption in the refrigeration industry and will significantly increase the efficiency in generating electricity at TPPs and NPPs, while reducing energy consumption by 20–25 %.http://journals.uran.ua/tarp/article/view/119336power plantworking bodies of energy cyclesstability of substancessulfur hexafluoride
collection DOAJ
language English
format Article
sources DOAJ
author Roman Gerasimov
Sergey Kolotukhin
Igor Mazurin
Andrey Sukhikh
Pavel Granchenko
spellingShingle Roman Gerasimov
Sergey Kolotukhin
Igor Mazurin
Andrey Sukhikh
Pavel Granchenko
Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
Tehnologìčnij Audit ta Rezervi Virobnictva
power plant
working bodies of energy cycles
stability of substances
sulfur hexafluoride
author_facet Roman Gerasimov
Sergey Kolotukhin
Igor Mazurin
Andrey Sukhikh
Pavel Granchenko
author_sort Roman Gerasimov
title Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
title_short Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
title_full Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
title_fullStr Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
title_full_unstemmed Analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
title_sort analysis of environmental, legislative and technological aspects of the choice of non-aqueous working bodies for power plants
publisher PC Technology Center
series Tehnologìčnij Audit ta Rezervi Virobnictva
issn 2226-3780
2312-8372
publishDate 2017-11-01
description In the conducted researches there is a task of a choice of a working body for a heat power circuit of power plants on non-aqueous working substances with possibility of considerable increase of power efficiency of a cycle and safety of operation of plants in view of restrictions of the Montreal and Kyoto protocols. In an experimental study of the possibility of using fluorocarbon working bodies and SF6 as working bodies of energy cycles, positive results have been obtained both in terms of increasing the safety of operation of power plants and increasing their reliability, and in terms of energy efficiency. However, their use as working bodies was delayed by the extremely long lifetime in the atmosphere by the Lifetime criterion. When calculating material balances of fluorocarbons and SF6 gas in the atmosphere based on the new IPCC-2013 data, a discrepancy of four orders of magnitude of the Lifetime criterion is found with the initial data given by IPCC-94. Based on these data, restrictions are introduced on the use of these substances within the framework of the commitment of the countries participating in the Kyoto Protocol to the UNFCCC. This gives grounds for the use of fluorocarbons and SF6 gas without restrictions on the basis of the greenhouse hazard, since the lifetime of these substances in the atmosphere does not exceed 2 years. The use of fluorocarbons and SF6 gas as working bodies of energy cycles will significantly reduce energy consumption in the refrigeration industry and will significantly increase the efficiency in generating electricity at TPPs and NPPs, while reducing energy consumption by 20–25 %.
topic power plant
working bodies of energy cycles
stability of substances
sulfur hexafluoride
url http://journals.uran.ua/tarp/article/view/119336
work_keys_str_mv AT romangerasimov analysisofenvironmentallegislativeandtechnologicalaspectsofthechoiceofnonaqueousworkingbodiesforpowerplants
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AT igormazurin analysisofenvironmentallegislativeandtechnologicalaspectsofthechoiceofnonaqueousworkingbodiesforpowerplants
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