Avoidable and unavoidable exergy destructions of a fluidized bed coal combustor and a heat recovery steam generator
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Date
2015
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd
Open Access Color
Green Open Access
Yes
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Publicly Funded
No
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Top 10%
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Top 10%
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Top 10%
Abstract
Abstract Advanced exergy analysis was performed using the actual operational data taken from a fluidized bed coal combustor (FBCC) and a heat recovery steam generator (HRSG) in a textile plant located at TorbalI Izmir. First the conventional exergy analysis of the units was carried out. The exergetic efficiencies of the units were found to be 44.2% and 46.2% respectively. Advanced exergy analysis was then performed by splitting the exergy destructions of the units into avoidable and unavoidable parts. The avoidable exergy destruction rates of the FBCC and the HRSG were determined to be 2999 kW and 760 kW according to the measurements. Correspondingly the exergy efficiencies were modified to 53.1% and 48.1% respectively. © 2015 Elsevier B.V. All rights reserved.
Description
Keywords
Advanced Exergy Analysis, Energy Analysis, Exergy Analysis, Fluidized Bed, Textile Plant, Coal Combustion, Combustors, Exergy, Fluidization, Fluidized Bed Process, Metal Recovery, Steam Generators, Textiles, Waste Heat, Avoidable Exergy Destructions, Energy Analysis, Exergetic Efficiency, Exergy Analysis, Exergy Destructions, Exergy Efficiencies, Heat Recovery Steam Generators, Operational Data, Fluidized Beds, Coal combustion, Combustors, Exergy, Fluidization, Fluidized bed process, Metal recovery, Steam generators, Textiles, Waste heat, Avoidable exergy destructions, Energy analysis, Exergetic efficiency, Exergy Analysis, Exergy destructions, Exergy efficiencies, Heat recovery steam generators, Operational data, Fluidized beds, Advanced Exergy Analysis, Fluidized Bed, Textile Plant, Energy Analysis, Exergy Analysis, Fluidized bed, Exergy analysis, Advanced exergy analysis, Textile plant, Energy analysis
Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
Citation
WoS Q
Scopus Q
OpenCitations Citation Count
28
Source
Energy Conversion and Management
Volume
98
Issue
Start Page
54
End Page
58
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CrossRef : 15
Scopus : 30
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Mendeley Readers : 28
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