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AuthorKamrava, Serveh
AuthorGabriel, Kerron J.
AuthorEl-Halwagi, Mahmoud M.
AuthorEljack, Fadwa T.
Available date2016-03-09T14:00:53Z
Publication Date2015-01
Publication NameClean Technologies and Environmental Policy
CitationKamrava, S., Gabriel, K.J., El-Halwagi, M.M., Eljack, F.T. "Managing abnormal operation through process integration and cogeneration systems" (2015) Clean Technologies and Environmental Policy, 17 (1), pp. 119-128.
ISSN1618-954X
URIhttp://dx.doi.org/10.1007/s10098-014-0767-y
URIhttp://hdl.handle.net/10576/4220
AbstractFlaring is a common industrial practice that leads to substantial greenhouse gas emissions, health problems, and economic losses. When the causes, magnitudes, and frequency of flaring are properly understood and incorporated into the design and operation of the industrial plants, significant reduction in flaring can be achieved. In this paper, a process integration approach is presented to retrofit the process design to account for flaring and to consider the use of process cogeneration to mitigate flaring while gaining economic and environmental benefits. It is based on simultaneous design and operational optimization where key flaring sources, causes, and consequences of process upsets are identified then included in the energy profile of the process to design a combined heat and power system with special emphasis on discontinuous sources due to process upset. Environmental and economic benefits are weighed against the cost of process retrofitting. A base case study for an ethylene process is used to illustrate the applicability of the proposed approach and to evaluate the process performance under varying abnormal situation scenarios.
SponsorNPRP grant #5-351-2-136 from the Qatar National Research Fund (a member of Qatar Foundation).
Languageen
PublisherSpringer Verlag
SubjectAbnormal situation management
SubjectEthylene plants
SubjectFlare reduction
SubjectGHGs
SubjectHeat integration
TitleManaging abnormal operation through process integration and cogeneration systems
TypeArticle
Pagination119-128
Issue Number1
Volume Number17


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