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AuthorTovar-Facio, Javier
AuthorEljack, Fadwa
AuthorPonce-Ortega, Jose M.
AuthorEl-Halwagi, Mahmoud M.
Available date2021-02-08T09:14:56Z
Publication Date2017
Publication NameACS Sustainable Chemistry and Engineering
ResourceScopus
URIhttp://dx.doi.org/10.1021/acssuschemeng.6b02033
URIhttp://hdl.handle.net/10576/17652
AbstractThis paper presents an optimization approach for designing cogeneration systems using flares and vents under abnormal conditions from different industrial plants. The aim of the proposed approach is to enhance resource conservation by utilizing waste flares and vents to produce power and heat while reducing the negative environmental impact associated with discharging these streams into the atmosphere. A nonlinear optimization model is proposed to determine the optimal design of the cogeneration system that maximizes the net profit of the system. The model addresses the inevitable uncertainties associated with the abnormal situations leading to venting and flaring. A random generations approach based on historical data and a computationally efficient algorithm are introduced to facilitate design under uncertainty and to enable the assessment of different scenarios and solutions with various levels of risk. A case study is presented to show the applicability of the proposed model and the feasibility of using cogeneration systems to mitigate flaring and venting and to reduce the environmental impact and operating costs
Languageen
PublisherAmerican Chemical Society
SubjectAbnormal situations
CO2 reduction
Cogeneration
Flaring
Venting
TitleOptimal Design of Multiplant Cogeneration Systems with Uncertain Flaring and Venting
TypeArticle
Pagination675-688
Issue Number1
Volume Number5
dc.accessType Abstract Only


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