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Organic Rankine Cycle for Energy Recovery System

The rising trend in the global energy demand poses new challenges to humankind. The energy and mechanical engineering sectors are called to develop new and more environmentally friendly solutions to harvest residual energy from primary production processes. The Organic Rankine Cycle (ORC) is an emer...

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Bibliographic Details
Main Author:	De Pascale, Andrea
Format:	eBook
Language:	English
Published:	Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:	Decentralised Energy Systems Orc Opensource Cfd Heat Exchanger Regression Model Benzene Exergy Analysis Internal Combustion Engine District Heating Low Sulfur Fuels Positive Displacement Machine Organic Rankine Cycle System Performance Parameters Techno-economic Feasibility Predictive Model Cavitation Machinery System Optimization Mesh Morphing History Of Engineering And Technology / Bicssc Chp Ship Exergy Expander Thermodynamic Optimization Energy Analysis Pressure Pulsation Method Comparison Natural Gas Engine Coolfoam Advanced Thermodynamic Cycles Openfoam Cogeneration Carbon Footprint Of Energy Production Organic Rankine Cycle Brayton Life Cycle Assessment Wom Biomass Scroll Zeotropic Mixture Toluene Waste Heat Recovery Low Grade Heat Life Cycle Analysis Micro-orc Orc Integration Technologies Cyclopentane Gear Pump Dynamic Analysis Environmental Impact Cfd
Online Access:	https://directory.doabooks.org/handle/20.500.12854... https://www.mdpi.com/books/pdfview/book/2411
Collection:	Directory of Open Access Books - Collection details see MPG.ReNa


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020			\|a books978-3-03936-395-7
020			\|a 9783039363957
020			\|a 9783039363940
100	1		\|a De Pascale, Andrea
245	0	0	\|a Organic Rankine Cycle for Energy Recovery System \|h Elektronische Ressource
260			\|a Basel, Switzerland \|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2020
300			\|a 1 electronic resource (192 p.)
653			\|a decentralised energy systems
653			\|a ORC
653			\|a opensource CFD
653			\|a heat exchanger
653			\|a regression model
653			\|a benzene
653			\|a exergy analysis
653			\|a internal combustion engine
653			\|a district heating
653			\|a low sulfur fuels
653			\|a positive displacement machine
653			\|a organic Rankine cycle system
653			\|a performance parameters
653			\|a techno-economic feasibility
653			\|a predictive model
653			\|a cavitation
653			\|a machinery system optimization
653			\|a mesh morphing
653			\|a History of engineering and technology / bicssc
653			\|a CHP
653			\|a ship
653			\|a exergy
653			\|a expander
653			\|a thermodynamic optimization
653			\|a energy analysis
653			\|a pressure pulsation
653			\|a method comparison
653			\|a natural gas engine
653			\|a CoolFOAM
653			\|a advanced thermodynamic cycles
653			\|a OpenFOAM
653			\|a cogeneration
653			\|a carbon footprint of energy production
653			\|a organic Rankine cycle
653			\|a Brayton
653			\|a life cycle assessment
653			\|a WOM
653			\|a biomass
653			\|a scroll
653			\|a zeotropic mixture
653			\|a toluene
653			\|a waste heat recovery
653			\|a low grade heat
653			\|a life cycle analysis
653			\|a micro-ORC
653			\|a ORC integration technologies
653			\|a cyclopentane
653			\|a gear pump
653			\|a dynamic analysis
653			\|a environmental impact
653			\|a CFD
700	1		\|a De Pascale, Andrea
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989			\|b DOAB \|a Directory of Open Access Books
500			\|a Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
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520			\|a The rising trend in the global energy demand poses new challenges to humankind. The energy and mechanical engineering sectors are called to develop new and more environmentally friendly solutions to harvest residual energy from primary production processes. The Organic Rankine Cycle (ORC) is an emerging energy system for power production and waste heat recovery. In the near future, this technology can play an increasing role within the energy generation sectors and can help achieve the carbon footprint reduction targets of many industrial processes and human activities. This Special Issue focuses on selected research and application cases of ORC-based waste heat recovery solutions. Topics included in this publication cover the following aspects: performance modeling and optimization of ORC systems based on pure and zeotropic mixture working fluids; applications of waste heat recovery via ORC to gas turbines and reciprocating engines; optimal sizing and operation of ORC under combined heat and power and district heating application; the potential of ORC on board ships and related issues; life cycle analysis for biomass application; ORC integration with supercritical CO2 cycle; and the proper design of the main ORC components, including fluid dynamics issues. The current state of the art is considered and some cutting-edge ORC technology research activities are examined in this book.

Organic Rankine Cycle for Energy Recovery System

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