A Polygeneration Process Concept for Hybrid Solar and Biomass Power Plant : Simulation, Modeling, and Optimization.

The global warming phenomenon as a significant sustainability issue is gaining worldwide support for development of renewable energy technologies. The term "polygeneration" is referred to as "an energy supply system, which delivers more than one form of energy to the final user."...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Sahoo, Umakanta
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Newark : John Wiley & Sons, Incorporated, 2018.
Temas:
Solar power plants.
Biomass energy.
Hybrid power systems.
Centrales solaires.
Bioénergie.
Énergie > Systèmes hybrides.
solar power plants.
TECHNOLOGY & ENGINEERING > General.
Biomass energy
Hybrid power systems
Solar power plants
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Foreword; Preface; 1 Introduction; 1.1 Global Scenario on Renewable Energy; 1.2 Indian Scenario on Renewable Energy; Exercise; References; 2 State-of-the-Art Concentrated Solar Thermal Technologies for End Use Applications; 2.1 Solar Thermal Technologies for Low Grade Heat Applications; 2.1.1 Flat Plate Collector System; 2.1.2 Built-In Storage Solar Water Heating System; 2.1.3 Evacuated Tubular Collector System; ETC Water Heating System Specification; 2.1.4 Cumulative Growth of SWHS Installation Capacity; 2.1.5 Performance Evaluation of SWHs.
  • 2.1.6 Cost Benefits Analysis2.2 Solar Cooking; 2.2.1 Thermal Performance of Solar Box Type Cooker; 2.3 Solar Thermal Cooling; 2.4 Desalination System; 2.5 Industrial Process Heat applications; 2.6 Solar Thermal Technologies for Power Generation; 2.6.1 Parabolic Trough Collector; 2.6.2 Linear Fresnel Reflector; 2.6.3 Central Solar Tower; 2.6.4 Parabolic Dish; 2.7 Cooling with Process Heat in Cogeneration Process for Industrial Applications; 2.7.1 System Description; Exercise; References; 3 Resource Assessment of Solar and Biomass for Hybrid Thermal Power Plant; 3.1 Apparent Solar Time.
  • 3.2 Solar Angles3.3 Solar Resources (DNI) In India; 3.3.1 Solar DNI from Satellite and Ground Measured Data; 3.3.2 DNI Assessment at NISE; 3.4 Biomass Resources in India; 3.5 Analysis of Solar DNI And Biomass Resources for Hybrid Power Plants; Exercise; References; 4 Solar Thermal Power Plant; 4.1 A Case Study of 1 MWe Solar Thermal Power Plant; 4.2 Major Components; 4.2.1 Parabolic Trough Collector; 4.2.2 Linear Fresnel Reflector; 4.2.3 Storage; 4.2.4 Nitrogen Blanketing System; 4.2.5 Heat Exchanger; 4.2.6 Power Block; 4.2.7 Balance of Plant-Utility Systems; 4.3 Performance of the Plant.
  • ExerciseReferences; 5 Modeling and Simulation of Hybrid Solar and Biomass Thermal Power Plant; 5.1 Modeling Approach of a Hybrid Solar-Biomass Thermal Power Plant; 5.2 Thermodynamic Evaluation; 5.2.1 Energy Evaluation; 5.2.2 Exergy Evaluation; 5.3 Analysis of Hybrid Solar and Biomass Thermal Power Plant; Exercise; References; 6 Modeling, Simulation, Optimization and Cost Analysis of a Polygeneration Hybrid Solar Biomass System; 6.1 Modeling Approach of Polygeneration Process in an HSB Thermal Power Plant; 6.2 Thermodynamic Evaluation; 6.2.1 Energy Evaluation; 6.2.2 Exergy Evaluation.
  • 6.3 Primary Energy Savings on the Polygeneration Process in an HSB Thermal Power Plant6.4 Optimization; 6.4.1 Objective Functions; 6.4.2 Decision Variable and Constraints; 6.4.3 Genetic Algorithm (GA); 6.5 Cost Analysis; 6.6 Analysis Of Polygeneration Process in an HSB Thermal Power Plant for Power, Cooling, and Desalination; 6.7 Optimization of the Polygeneration System; 6.8 Cost Analysis of a Polygeneration System; Exercise; References; Appendix 1; Nomenclature; Greek; Subscripts; Acronyms; Appendix 2; EES Software Coding; Appendix 3; Multiple Choice Questions (MCQ) with Answers; Answers.

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