Analysis of the feasibility of reducing fuel consumption and carbon-dioxide emissions and obtaining carbon credits with the use of sverdlovskaya-oblast factories as an example / Anufriev V.P., Lisienko V.G., Kuligin A.P., Lapteva A.V., Chesnokov Y.N., Malikov Y.K., Ryzhova T.P. // Metallurgist. - 2013. - V. 57, l. 3-4. - P. 253-260.

ISSN:

00260894

Type:

Article

Abstract:

This article discusses aspects of improving the efficiency of heating and heat-treatment furnaces from the standpoint of the fuel savings that can be realized by the use of different methods to modernize such furnaces. © 2013 Springer Science+Business Media New York.

Author keywords:

automation; carbon dioxide; greenhouse gas; monetary savings; regenerative burner; thermal efficiency

Index keywords:

Carbon credits; Carbon dioxide emissions; Fuel savings; Monetary savings; Regenerative burners; Thermal efficiency; Automation; Carbon dioxide; Fuel economy; Greenhouse gases; Carbon

DOI:

10.1007/s11015-013-9721-1

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-84882886197&doi=10.1007%2fs11015-013-9721-1&partnerID=40&md5=e4f4ed2f59653eccb63c3779d1f6abe5

Соавторы в МНС:

Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84882886197&doi=10.1007%2fs11015-013-9721-1&partnerID=40&md5=e4f4ed2f59653eccb63c3779d1f6abe5
Affiliations	Yeltsin Ural Federal University (UrFU), Ekaterinburg, Russian Federation; Pervouralsk New Pipe Plant, Ekaterinburg, Russian Federation
Author Keywords	automation; carbon dioxide; greenhouse gas; monetary savings; regenerative burner; thermal efficiency
References	Chesnokov, Y.N., Lisienko, V.G., Lapteva, A.V., Graph model for carbon dioxide emissions from metallurgical plants (2012) Metallurg, 12, pp. 23-26; Shchelokov, Y.M., Ladygichev, M.G., (2004) Fuel: Efficient Combustion, Control, and Industrial Use: Handbook, 1-3. , V. G. Lisienko (ed.) [in Russian] Teplotekhnik, Moscow; Gubinskii, V.I., Heating furnaces in metallurgy - Today and tomorrow (2004) Teor. Prakti. Metallurgii, (6), pp. 56-60; Lisienko, V.G., Malikov, G.K., Malikov, Y.K., Current approaches to devising methods of conducting pre-project model studies in the development of industrial furnaces and heating equipment in the Twenty-First Century (2008) Proc. 3rd Int. Congr. Furnace and Kiln Design: Thermal Calculations, Designs, Automation, and Ecology, pp. 6-23. , V. G. Lisienko (ed.), Ekaterinburg, Inzhenernaya Mysl; Shchelokov, Y.M., Ladygichev, M.G., (2002) Selected Readings on Energy Conservation, , V. G. Lisienko (ed.) [in Russian], Book 2 of 2, Teplotekhnik, Moscow; D'Yakov, S.V., D'Yakov, A.V., Makii, A.E., Experience with the use of WS burners in heating and heat-treatment furnaces (2009) Oborudovanie, (1), pp. 14-16; Kazyaev, M.D., Spiglazov, A.F., Arseev, B.N., The use of modern fuel-saving devices in heating furnaces (2008) Proc. 3rd Int. Congr. Furnace and Kiln Design: Thermal Calculations, Designs, Automation, and Ecology, pp. 152-159. , V. G. Lisienko (ed.), Ekaterinburg, Inzhenernaya Mysl; Frolov, A.V., TESKA technology for rapid heating. Automated multi-purpose GSS TESKA burners (2006) Proc. 2nd Int. Congr. Furnace and Kiln Design: Thermal Calculations, Designs, Automation, and Ecology, pp. 298-300. , V. G. Lisienko (ed.), Ekaterinburg, Inzhenernaya Mysl; Druzhinin, G.M., Distergeft, I.M., Shcherbinin, V.I., The experience of VNIIMT in developing regenerative heating systems for metallurgical equipment (2000) Stal, (7), pp. 84-89; Maisotsenko, V., Gillan, I., Kozlov, A., The Maisotsenko Cycle for Power Generation, Waste Energy Recovery, and Water Reclamation (2010) Clean Energy Supercluster Forum, Engines and Energy Conversion Laboratory, Colorado State University, IDALEX-GTI, Oct. 25, pp. 1-41
Correspondence Address	Anufriev, V.P.; Yeltsin Ural Federal University (UrFU), Ekaterinburg, Russian Federation; email: ch_jur@mail.ru
Language of Original Document	English
Abbreviated Source Title	Metallurgist
Source	Scopus