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Wybrane problemy transportowe w instalacjach petrochemicznych
Języki publikacji
Abstrakty
Although all the modes of transport are good to drive product (sea, road, rail or pipeline), crude oil primarily used two means of mass transportation: pipelines and tankers continuous flow of large capacity. The oil industry has various facilities to carry out their operations. Sometimes situations arise or occur accidents during operations, which results in possible contamination, affecting the environment and / or humans. For this reason it is necessary to have the operations controlled by reliability, maintainability and availability. The fundamental objective of this work is to identify the main operational problems in the oil installations, and know about the tools used to solve them. Solve all these problems will result in more efficient and safety operations, for man and the environment.
W instalacjach petrochemicznych stosowane są przede wszystkim rurociągi i cysterny ciągłego przepływu dużej pojemności. Właściwości systemów transportowych w instalacjach petrochemicznych i warunki środowiskowe sprzyjają wypadkom podczas procesu użytkowania z udziałem ludzi i otoczenia naturalnego. Od instalacji transportowych wymaga się akceptowanego poziomu bezpieczeństwa i niezawodności. Celem pracy jest sformułowanie istotnych transportowych problemów eksploatacyjnych w instalacjach petrochemicznych oraz wskazanie narzędzi przydatnych w ich eliminacji lub minimalizacji z uwzględnieniem przyjętej w procesie strategii.
Czasopismo
Rocznik
Tom
Strony
1688--1697
Opis fizyczny
Bibliogr. 28 poz., rys., tab., pełen tekst na CD
Twórcy
autor
- Petroleum Engineering and Project Enterprise, Habana, Cuba
autor
- AGH University of Science and Technology, Krakow, Poland
Bibliografia
- 1. García Sánchez, Álvaro and Álvaro, Miguel (2005). Programación de oleoductos: presentación del problema y revisión de enfoques (Programming of Pipelines: presentation of the problem and review of approaches). IX Congreso de Ingeniería de Organización Oviedo, 8 y 9 de septiembre de 2005 (IX Congress of Organization Engineering Oviedo, September 8th and 9th, 2005).
- 2. Sectorial Study of Process Valves for the Petroleum Industry in Mexico, INLAC 2013. PEMEX.
- 3. Paul H. Wright and Norman J. Ashford. Transportation Engineering. Planning and Design. 4th edition. 1998.
- 4. Contemporary Transportation Systems. Selected Theoretical and Practical Problems. The Development of Transportation Systems. Edited by Ryszard Janecki and Grzegorz Sierpiński. Wydawnictwo Politechniki Śląskiej, Gliwice, 2010.
- 5. Perry's Chemical Engineers' Handbook (7th Edition). Edited by Perry, R.H.; Green, D.W., 1997, McGraw-Hill, (Chapter 10).
- 6. Max S. Peters and Klaus D. Timmerhaus. Plant Design and Economics for Chemical Engineers. Fourth Edition. International edition 1991. McGraw-Hill Chemical Engineering Series, Editorial Advisory Board.
- 7. U.M. Ikeagwuani, G.A. John. Safety in maritime oil sector: Content analysis of machinery space fire hazards. Original Research Article Safety Science, Volume 51, Issue 1, January 2013, Pages 347-353.
- 8. Tony M.T. Lopes, Arnaldo V. Moura, Cid C. de Souza, Andre A. Cire. Planning the operation of a large real-world oil pipeline. Original Research Article Computers & Chemical Engineering, Volume 46, 15 November 2012, Pages 17-28.
- 9. Jeffery K. Cochran, Arvindh Murugan, Vijayalakshmi Krishnamurthy. Generic Markov models for availability estimation and failure characterization in petroleum refineries. Original Research Article Computers & Operations Research, Volume 28, Issue 1, January 2001, Pages 1-12.
- 10. Jon Espen Skogdalen, Ingrid B. Utne, Jan Erik Vinnem. Developing safety indicators for preventing offshore oil and gas deepwater drilling blowouts. Original Research Article Safety Science, Volume 49, Issues 8–9, October 2011, Pages 1187-1199.
- 11. Jaime Santos-Reyes, Alan N. Beard. A SSMS model with application to the oil and gas industry. Original Research Article Journal of Loss Prevention in the Process Industries, Volume 22, Issue 6, November 2009, Pages 958-970.
- 12. M. Neuroth, P. MacConnell, F. Stronach, P. Vamplew. “Improved modelling and control of oil and gas transport facility operations using artificial intelligence”. Original Research Article. Knowledge-Based Systems, Volume 13, Issues 2–3, April 2000, Pages 81-92.
- 13. Jon Espen Skogdalen, Jan Erik Vinnem. Combining precursor incidents investigations and QRA in oil and gas industry. Original Research Article. Reliability Engineering & System Safety, Volume 101, May 2012, Pages 48-58.
- 14. Radim Bris, Sava Medonos, Chris Wilkins, Adam Zdráhala. Time-dependent risk modeling of accidental events and responses in process industries. Original Research Article. Reliability Engineering & System Safety, In Press, Corrected Proof, Available online 23 May 2013.
- 15. Ashwani Srivastava, J.P. Gupta. New methodologies for security risk assessment of oil and gas industry. Original Research Article. Process Safety and Environmental Protection, Volume 88, Issue 6, November 2010, Pages 407-412.
- 16. Simon Roussanaly, Jana P. Jakobsen, Erik H. Hognes, Amy L. Brunsvold. Benchmarking of CO2 transport technologies: Part I-Onshore pipeline and shipping between two onshore areas. Original Research Article. International Journal of Greenhouse Gas Control, Volume 19, November 2013, Pages 584-594.
- 17. Handbook of Transportation Engineering. NETWORKS AND SYSTEMS. Myer Kutz, Editor. Downloaded from Digital Engineering Library, McGraw-Hill, 2004, www.digitalengineeringlibrary.com
- 18. John E. Edwards. Chemical Engineering in Practice. Design, Simulation and Implementation. Process Simulation Engineer, P & I Design Ltd. First Edition, February 2011, http://www.pidesign.co.uk
- 19. Marvin Rausand. “Preliminary Hazard Analysis”. Department of Production and Quality Engineering. Norwegian University of Science and Technology. October 7, 2005. (http://www.google.pl/url?sa=t&rct=j&q=&esrc=s&source=web&cd=5&cad=rja&ved=0CD0QFjAE&url=http%3A%2F%2Fab-div-bdi-bl-blm.web.cern.ch%2Fab-div-bdi-bl-blm%2FLiterature%2Ffmcea%2Fpha.pdf&ei=8GTLUtfbKc2ThgezqYD4AQ&usg=AFQjCNFqHHljmrt4JMn1bJxQj6anLeUVVA&sig2=kJGYbLmK2xTo9VMuy-H4Yg)
- 20. http://ops.fhwa.dot.gov/docs/tmsmaintcptandplans/chapter1.thm
- 21. http://www.scribd.com/doc/165024864/0135033519-pp11a
- 22. http://www.odec.ca/projects/2003/wongi3i/public_html/transport.html
- 23. http://www.concreteconstruction.net/tools-and-equipment/keeping-track.aspx
- 24. http://en.wikipedia.org/wiki/Availability
- 25. http://www.google.pl/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=0CDEQFjAA&url=http%3A%2F%2Fiie.fing.edu.uy%2F~javierp%2FSDH%2FTransparencias%2520de%2520la%2520clase%2520y%2520varios%2Fsdh-desempe%25F1o%2Facs-11.ppt&ei=9emfUtOwIYbPhAfkvICQAw&usg=AFQjCNEq87Z6rDOMbC-cx-rd-LqQGaRLiw&sig2=oIHfVLwrv3g3C5mBqci26Q
- 26. http://www.scribd.com/doc/165024864/0135033519-pp11a
- 27. http://www.theriac.org/DeskReference/viewDocument.php?id=95
- 28. Risk assessment study realized for EIPP, Havana, Cuba. Document with code 950C14EIBT0000.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0a365f78-a8b9-454d-9dd6-da551fc96c38