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calise f polygeneration systems design processes tech 2021

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Textbook in PDF format The support for polygeneration lies in the possibility of integrating different technologies into a single energy system, to maximize the utilization of both fossil and renewable fuels. A system that delivers multiple forms of energy to users, maximizing the overall efficiency makes polygeneration an emerging and viable option for energy consuming industries. Polygeneration Systems: Design, Processes and Technologies provides simple and advanced calculation techniques to evaluate energy, environmental and economic performance of polygeneration systems under analysis. With specific design guidelines for each type of polygeneration system and experimental performance data, referred both to single components and overall systems, this title covers all aspects of polygeneration from design to operation, optimization and practical implementation. Giving different aspects of both fossil and non-fossil fuel based polygeneration and the wider area of polygeneration processes, this book helps readers learn general principles to specific system design and development through analysis of case studies, examples, simulation characteristics and thermodynamic and economic data. List of contributors. Polygeneration. Introduction. Polygeneration: layout. Polygeneration: fuels. Fossil fuels. Renewable energies. Hybrid energy inputs. By-products of polygeneration systems. Distributed generation. Pro and cons. References. Components and processes of polygeneration systems. Main components included in polygeneration systems. Internal combustion engines. Steam turbine cycles. Organic Rankine cycles. Gas turbine cycles. Combined cycles. Fuel cells. Electric-driven and heat-driven chillers and heat pumps. Wind systems. Geothermal systems. Biomass systems. Solar collectors, photovoltaic panels, and concentrated solar power. Solar stationary collectors. Solar tracking concentrating collectors. Photovoltaic panels. Hydrosystems. Storage systems. Electric energy vehicles. Main processes included in polygeneration systems. References. Methodologies for the evaluation of polygeneration systems. Introduction. Basic indicators of energo-environmental performance for polygeneration plants. Fundamentals of eligibility criteria for high-efficiency combined heat and power assessment. Economics of polygeneration systems under market conditions. Evaluation methods for the optimal plant design and operation strategies. Thermoeconomic analysis of polygeneration systems. Conclusions. References. Further reading. Natural gas-based polygeneration systems. Introduction. Natural gas use. Natural gas-driven combined cooling, heat, and power systems. Natural gas-driven polygeneration systems. Natural gas polygeneration systems with desalination processes. Natural gas polygeneration systems based on reforming processes. Natural gas polygeneration systems based on chemical looping. Natural gas and coal or petcoke polygeneration systems. Conclusions. Acknowledgments. References. Biomass-based systems. Introduction to biomass-based polygeneration plants. Biomass feedstocks for polygeneration plants. Dedicated energy crops and algae. Agricultural and forestry residues. Municipal, agroindustrial, and animal industry residues. Biomass polygeneration plant pretreatments. Biological pretreatments. Nonbiological: physical pretreatments. Nonbiological: chemical pretreatments. Nonbiological: physical–chemical pretreatments. Thermochemical processes in polygeneration from biomass. Pyrolysis for polygeneration. Combustion for polygeneration. Gasification for polygeneration. Purification and conditioning of syngas obtained from biomass. Biochemical processes in polygeneration from biomass. Hydrolysate fermentation. Bioethanol. Biodiesel. Hydrogen. Syngas fermentation. Outputs of biomass-based polygeneration systems. Biomass-based polygeneration systems for energy production. Biomass-based polygeneration systems for energy and biofuels production. Other outputs of biomass-based polygeneration systems. References. Solar-based systems. Introduction. Solar technologies. Photovoltaics. Concentrating solar power. Parabolic trough collector. Linear fresnel reflectors. Solar power tower. Solar dish. Solar thermal heating and cooling. Flat-plate collectors. Evacuated tube collectors. Compound parabolic collectors. Solar polygeneration systems. Hybridized solar polygeneration systems. Example of a solar-based polygeneration system. System layout and operation strategy. Methodology. Energy savings and economic model. Case study. Presentation of the results. Weekly analysis. Yearly results. Sensitivity analysis. Nomenclature. References. Hybrid fossil fuel/renewable systems for polygeneration. Introduction. Natural gas and solar energy systems. Natural gas and solar thermal systems. Natural gas and photovoltaic panels. Natural gas and solar energy for cogeneration. Natural gas and fuel cell systems. Natural gas, biomass, and geothermal systems. Diesel and solar energy systems. Generation of alternative fuels in fossil/RES hybrid/polygeneration plants. Alternative fuels for internal use in a system. Alternative fuels as products of a system. Conclusions. Nomenclature. References. Combined cooling, heat, and power systems. Introduction. Absorption-based trigeneration systems. Introductory notes on absorption chillers. Literature overview. Adsorption-based trigeneration systems. Introductory notes on adsorption chillers. Literature overview. Desiccant cooling-based trigeneration systems. Introductory notes on desiccant cooling systems. Literature overview. Other trigeneration systems. Combined cooling, heating, and power systems based on ejector refrigeration cycles . Ammonia-water cycle configurations. Conclusions. References. Fourth generation district heating and cooling. Introduction. Smart energy system. Fourth generation district heating and cooling integrated into smart energy system. Polygeneration and energy sources for fourth GDHC. Control strategy. Storage. Main indices to evaluate the energetic, environmental, and economic characteristics of fourth GDHC. Outlook of the fourth generation district heating and cooling network. Example of fourth generation district heating. System layout and operation strategy. Model. Building. Reversible heat pump. Pipe. Presentation of the results. Conclusion. Nomenclature. References. Polygeneration systems in buildings. Introduction. Energy in buildings. Demand types and intensities. Space heating and cooling. Serving demand through polygeneration. Storage and demand response. Zero and Positive Energy Buildings. Energy vectors. Fuel-based polygeneration approaches. Fuel combustion and heat engines. Fuel cells. Solar-based polygeneration approaches. Solar energy resources. Solar thermal systems. Photovoltaics. Photovoltaic–thermal systems. Solar CHP building integration with hydronic systems. Solar CHP building integration with ventilation systems. Solar-based CCHP systems. Solar polygeneration building envelopes with daylighting functions. Multifunction solar polygeneration building envelopes. References. Supplementary references for Figure. Polygeneration systems in industry. Introduction. Evolution of the concept of polygeneration. Industrial polygeneration. Coal-based industrial polygeneration. Polygeneration in existing industrial units. Scope of polygeneration in iron and steel industries. Scope of polygeneration in cement plant. Scope of polygeneration in an aluminum production unit. Scope of polygeneration in oil refineries. Scope of polygeneration in the sugarcane industry. Scope of polygeneration in a glass manufacturing unit. Scope of polygeneration in marine ship. Polygeneration integrated into the pulp and paper mill. Scope of polygeneration in the high water cut stage of an oilfield. Scope of using low-grade industrial waste heat in polygeneration. Conclusions. References. Index. Backcover

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