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Optimizing the Design and Deployment of Stationary Combined Heat and Power Fuel Cell Systems for Minimum Costs and Emissions—Part II: Model Results
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نوع المصدر |
مقال
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بيانات التأليف |
Colella, Whitney G. (Author)
Schneider, Stephen H. (Author)
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بيانات الدورية المصدر |
العنوان:
Journal of Fuel Cell Science and Technology
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رقم المجلد/ العدد: 2011/APR V.8 N.2
رقم الإستدعاء: 621.31242905 J F C الموقع: Periodicals & References Hall - 2nd floor
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الوصف المادي |
p 1-16
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رأس الموضوع/ الواصفات |
Engineering
(39711)
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المستخلص |
The maximizing emission reductions and economic savings simulator (MERESS) is an optimization tool that evaluates novel strategies for installing and operating combined heat and power (CHP) fuel cell systems (FCSs) in buildings. This article discusses the deployment of MERESS to show illustrative results for a California campus town and, based on these results, makes recommendations for further installations of FCSs to reduce greenhouse gas (GHG) emissions. MERESS is used to evaluate one of the most challenging FCS types to use for GHG reductions, the phosphoric acid fuel cell (PAFC) system. These PAFC systems are tested against a base case of a CHP combined cycle gas turbine (CCGT). Model results show that three competing goals (GHG emission reductions, cost savings to building owners, and FCS manufacturer sales revenue) are best achieved with different strategies but that all three goals can be met reasonably with a single approach....
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الدورية:
Journal of Fuel Cell Science and Technology
(330)
العدد: 2011/APR V.8 N.2
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