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100   $a20150602d2015      u|             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aWaste-to-Energy$b[electronic resource] $eAdvanced Cycles and New Design Concepts for Efficient Power Plants /$fby Lisa Branchini
205   $a1st ed. 2015.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2015.
215   $a1 online resource (150 p.)
300   $aDescription based upon print version of record.
311 1 $a3-319-13607-0 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aIntroduction -- Municipal Waste Overview -- Waste-To-Energy -- Waste-To-Energy steam cycle -- Waste-To-Energy and Gas Turbine: Hybrid Combined Cycle concept -- WTE-GT steam/water side integration: thermodynamic analysis on one pressure level -- Performance indexes and output allocation for Multi-Fuel energy systems -- Specific application cases with GT commercial units.
330   $a·         Explains the basics of Waste-To-Energy (WTE) conversion processes and the technologies currently in use for WTE ·         Provides layout and steam cycle adopted parameters for WTE plants ·         Examines new and advanced integrated WTE cycles for energy efficiency optimization ·         Discusses and identifies several performance indexes and power output allocation approaches for multi-fuel energy systems   This book provides an overview of state-of-the-art technologies for energy conversion from waste, as well as a much-needed guide to new and advanced strategies to increase Waste-to-Energy (WTE) plant efficiency. Beginning with an overview of municipal solid waste production and disposal, basic concepts related to Waste-To-Energy conversion processes are described with reference to combustion grate technologies, highlighting the most relevant aspects impacting the thermodynamic efficiency of WTE power plants. The pervasive influences of main steam cycle parameters and plant configurations on WTE efficiency are detailed and quantified.   Advanced hybrid technology applications, particularly the Hybrid Combined Cycle concept, are examined in detail, including an illuminating compare-and-contrast study of two basic types of hybrid dual-fuel combined cycle arrangements: steam/water side integrated HCC and windbox repowering. Focusing on steam/water side integrated configuration, several layouts are proposed; for each proposed configuration, the optimum plant design is identified to meet the goals of maximizing steam generation and power output, while minimizing discharged outlet temperature. An in-depth case study investigates the strengths and challenges of a medium-sized WTE facility integrated with different market-available gas turbine (GT) units. Finally, the book examines issues of power output allocation and conversion efficiency for a multi-fuel energy system (such as WTE-GT integrated plant), which receives different types of input fuels and generates a single useful output. Several performance indexes and varying power output allocation approaches are identified and compared.
606   $aRenewable energy sources
606   $aTotal energy systems (On-site electric power production)
606   $aRefuse and refuse disposal
606   $aRenewable and Green Energy$3https://scigraph.springernature.com/ontologies/product-market-codes/111000
606   $aEnergy Systems$3https://scigraph.springernature.com/ontologies/product-market-codes/115000
606   $aWaste Management/Waste Technology$3https://scigraph.springernature.com/ontologies/product-market-codes/U31001
615  0$aRenewable energy sources.
615  0$aTotal energy systems (On-site electric power production)
615  0$aRefuse and refuse disposal.
615 14$aRenewable and Green Energy.
615 24$aEnergy Systems.
615 24$aWaste Management/Waste Technology.
676   $a363.728
676   $a621.042
676   $a628.4
700   $aBranchini$b Lisa$4aut$4http://id.loc.gov/vocabulary/relators/aut$0956504
906   $aBOOK
912   $a9910299612303321
996   $aWaste-to-Energy$92165795
997   $aUNINA