ANALYSIS OF THERMOTECHNICAL CHARACTERISTICS OF HYDROCARBON FUEL VARIABLE COMPOSITION
https://doi.org/10.30724/1998-9903-2018-20-3-4-145-150
Abstract
The content of components in gaseous fuels can vary widely, depending on the source, time and stage of development of a fuel field. The change in composition leads to a change in the thermotechnical characteristics of gas, which affects the efficiency of the combustion process. This article presents the results of calculations of the effect of the composition of fuel on its thermotechnical characteristics. Calculations were carried out using analytical and normative methods. The dependence of the fuel specific heat of combustion on the specific air rate was obtained.
About the Authors
E. R. Saifullin
Kazan Federal University
Russian Federation
post graduate Kazan Federal University
Russian Federation
post graduate Kazan Federal University
S. A. Nazarychev
Kazan Federal University
Russian Federation
post graduate Kazan Federal University
Russian Federation
post graduate Kazan Federal University
A. V. Gazeykina
Kazan Federal University
Russian Federation
graduate student Kazan Federal University
Russian Federation
graduate student Kazan Federal University
Y. V. Vankov
Kazan State Power Engineering University
Russian Federation
professor Kazan State Power Engineering University
Russian Federation
professor Kazan State Power Engineering University
I. V. Larionova
Kazan National Research Technical University A.N. Tupolev
Russian Federation
assistant professor Kazan National Research Technical University named after A.N. Tupolev
Russian Federation
assistant professor Kazan National Research Technical University named after A.N. Tupolev
References
1. International Energy Agency, ''Electricity Information 2015''.
2. Roland TH. Associated petroleum gas in Russia: reasons for non-utilization. Fridtjof Nansen Institute, Report 13/2010.
3. Kayadelen H.K. Effect of natural gas components on its flame temperature, equilibrium combustion products and thermodynamic properties, Journal of Natural Gas Science and Engineering 45 (2017), pp. 456-473.
4. Sayad, P. Operational stability of lean premixed combustion in gas turbines an experimental study on gaseous alternative fuels, Doctoral Dissertation (2016), Lund University.
5. Syred, N., Abdulsada, M., Griffiths, A., O'Doherty, T., Bowen, P. The effect of hydrogen
6. Lieuwen, T., McDonell, V., Petersen, E., Santavicca, D. Fuel flexibility influences on premixed combustor blowout, flashback, autoignition, and stability (2008) // Journal of Engineering for Gas Turbines and Power, 130 (1), 011506.
7. Cala, O.M., Meriño, L., Kafarov, V., Saavedra, J. Evaluation of combustion models for
8. Lisienko V.G., Shchelokov Ya.M., Ladygichev M.G. «Toplivo. Ratsional'noe szhiganie, upravlenie i tekhnologicheskoe ispol'zovanie»: spravochnoe izdanie: V 3-kh knigakh. Kniga 1 / Pod red. V.G. Lisienko. M: Teplotekhnik, 2003. 608 s.
9. Teplovoi raschet kotlov (normativnyi metod) 3-e izdanie. NPO TsKTI, SPb, 1998.
10. Teoriya topochnykh protsessov / G.F. Knorre, K.M. Aref'ev, A.G. Blokh i dr.; pod red. G.F. Knorre, I.I. Paleeva. M.; L.: Energiya, 1966. 491 s.
Review
For citations:
Saifullin E.R., Nazarychev S.A., Gazeykina A.V., Vankov Y.V., Larionova I.V. ANALYSIS OF THERMOTECHNICAL CHARACTERISTICS OF HYDROCARBON FUEL VARIABLE COMPOSITION. Power engineering: research, equipment, technology. 2018;20(3-4):145-150. (In Russ.) https://doi.org/10.30724/1998-9903-2018-20-3-4-145-150
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