Interconnection of Thermal Plant Steam Circuits: Case of the Three Thermal Plants of the Burkina Faso Northern Ouaga Production Service (Sptn)
Volume 3, Issue 2, December 2019, Pages: 107-113
Received: Jul. 13, 2019;
Accepted: Aug. 5, 2019;
Published: Sep. 2, 2019
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Madjoyogo Herve Sirima, Mechanization Department, Institute of Research in Applied and Technological Sciences, National Center for Scientific and Technological Research, Ouagadougou, Burkina Faso
Betaboale Naon, Study and Research Group in Mechanics, Energetics and Industrial Technics, University Institute of Technology, Nazi BONI University, Bobo – Dioulasso, Burkina Faso
Frederic Bationo, Mechanization Department, Institute of Research in Applied and Technological Sciences, National Center for Scientific and Technological Research, Ouagadougou, Burkina Faso
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In this work, we are interested in the overheating of the Heavy Fuel Oil (HFO), for its permutation with the DDO. The practical aspect of this study is the design of an automated collector to make steam available at full load by exploiting steam potential. In the rest of our work, we have studied the influence of certain parameters on heat transfer. We concluded that temperature and pressure remain the most important parameters in the production of steam and the overheating of Heavy Fuel Oil. The choice of devices is made according to these two parameters. In the light of our analysis, this study shows that interconnection is an ideal solution for reducing the cost of production by using steam at full load.
Steam Circuits, Interconnection, Overheating, Automated Collector, Heavy Fuel Oil, Thermal Transfer
To cite this article
Madjoyogo Herve Sirima,
Interconnection of Thermal Plant Steam Circuits: Case of the Three Thermal Plants of the Burkina Faso Northern Ouaga Production Service (Sptn), Applied Engineering.
Vol. 3, No. 2,
2019, pp. 107-113.
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Risk analysis of PSE in engineering studies of "Oil& Gas" industrial units. Bruno LEQUIME, Department HSE Etudes 2008_05_27_Technip. pdf. AFIAP Technical Day of May 27, 2008. www.methodehazop.com/htm.
André CHEVALIER, Guide of the industrial draftsman, Hachette edition, 2003; 335 pages.
André RICORDEAU and Claude CORBET, DOSSIER OF CONSTRUCTION TECHNOLOGY, Casteilla edition, Paris 2000, 152 pages.
Failure tree: definition-objectives-and-fields of application / examples, www.methodeanalysedesrisques.com
Benoît THOLLIN "Electrothermal characterization tools and methodologies for the analysis of power electronics interconnection technologies" PhD thesis of the University of Grenoble, Thursday 4 April 2013, 158 pages.
Consulting firm / Support in industrial and tertiary maintenance, www.ingexpert.com.
C. HAZARD Memotech industrial drawing, Casteilla edition, Paris 2003, 432 Pages.
D. Cogniel, F. Castellazzi, Y. Gangloff, Memotech industrial maintenance, Casteillaédition, Paris 2003, 331 pages.
Définition-objectives-and-application domains, www.methodehazop-se4030niv10001.htm/
hazop_amdec_version_light. pptx, www.methodehazop. com
P. Drexler, H. Faatz, F. Feicht, H. Geis (Dr. Ing.), J. Morlok (Dr. Ing. ) and E. Wiesmann, Study and Design of Hydraulic Facilities, ed. Mannesmann Rexroth GmbH, Lohr am Main / Federal Republic of Germany (FRG), 1988; 337 pages.
Spirax Sarco Worldclass-Worldwide (Fluidic Circuit Sizing); 25 pages.
Gilles ZWINGELSTEIN Dependability of complex systems; 32 pages.
MadjoyogoHervé SIRIMA "Automated interconnection of the steam / boiler circuits of the three (3) thermal power plants of the Northern Ouagadougou Thermal Power Generation Service (SPTN)", Presentation of the Master's Degree in Industrial Engineering and Maintenance, 2014, 100 pages.