Combined cooling, heating and power : decision-making, design and optimization

Combined cooling, heating and power decision-making, design and optimization

A professional reference title written primarily for researchers in thermal engineering, <i>Combined Cooling, Heating and Power: Decision-Making, Design and Optimization</i> summarizes current research on decision-making and optimization in combined cooling, heating, and power (CCHP) sys...

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Detalles Bibliográficos
Otros Autores: Ebrahimi, Masood, author (author), Keshavarz, Ali, author
Formato: Libro electrónico
Idioma:Inglés
Publicado: Waltham, Mississippi : Elsevier [2015]
Edición:First edition
Materias:
Cogeneration of electric power and heat.
Energy conversion.
Power-plants > Energy conservation.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628675506719
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Dedication; Contents; Preface; 1 - CCHP Literature; 1.1 - Introduction; 1.2 - CCHP in the Last Decade; References; 2 - CCHP Technology; 2.1 - Introduction; 2.2 - Basic CCHP Cycles; 2.2.1 - CCHP Based on Industrial Steam Turbines (ST); 2.2.2 - CCHP System Based on Industrial Gas Turbine (GT); 2.2.3 - CCHP Based on Reciprocating Internal Combustion Engine (IC); 2.2.4 - CCHP Based on a Micro-Gas Turbine (MGT); 2.2.5 - CCHP Based on a Micro-Steam Turbine (MST); 2.2.6 - CCHP Based on Stirling Engine; 2.2.7 - CCHP Based on Fuel Cells
  • 2.2.8 - CCHP Based on Photovoltaic Thermal (PVT)2.3 - Thermally Activated Cooling Systems; 2.3.1 - Absorption Chillers: H2O-LiBr; 2.3.2 - Absorption Chillers: NH3-H2O; 2.3.3 - Adsorption Chillers; 2.3.4 - Desiccant Cooling; 2.3.5 - Ejector Cooling Cycle; 2.4 - Problems; References; 3 - CCHP Evaluation Criteria; 3.1 - Introduction; 3.2 - Technological Subcriteria; 3.2.1 - Fuel Energy Saving Ratio (FESR); 3.2.2 - Overall Efficiency; 3.2.3 - Exergy Efficiency; 3.2.4 - Power to Heat Ratio (PHR); 3.2.5 - Operation in Partial Load of Prime Mover (OPL)
  • 3.2.6 - User-Friendliness of Control and Regulation (UFCR)3.2.7 - Maturity of the Technology; 3.2.8 - Recoverable Heat Quality; 3.3 - Economic Subcriteria; 3.3.1 - Initial Investment Cost (I); 3.3.2 - Operation and Maintenance Cost (IOM); 3.3.3 - Cash Flow (cf); 3.3.4 - Payback Period (PB); 3.3.5 - Net Present Value (NPV); 3.3.6 - Internal Rate of Return (IRR); 3.4 - Environmental Subcriteria; 3.4.1 - Noise; 3.4.2 - Air Pollution; 3.5 - Miscellaneous Subcriteria; 3.5.1 - Import and Export Limitations (IEL); 3.5.2 - Local Ability and Ease of Maintenance (LAEM); 3.5.3 - Lifetime
  • 3.5.4 - Footprint3.6 - Problems; References; 4 - CCHP Decision-Making; 4.1 - Introduction; 4.2 - Multicriteria Decision-Making (MCDM); 4.2.1 - Fuzzy-MCDM Modeling; 4.2.1.1 - Quantifying the Qualitative Criteria; 4.2.1.2 - Generating the Judgment Matrix; 4.2.1.3 - Normalization of the Judgment Matrix; 4.2.1.4 - Calculating the Normalized Weight Matrix; 4.2.1.5 - Finding the Ideal and Anti-ideal Solutions for All Criteria; 4.2.1.6 - Finding the Weighted Distance from the Ideal and Anti-ideal Solutions; 4.2.1.7 - Calculating the Closeness Number (CN); 4.2.2 - Grey-MCDM Modeling
  • 4.2.2.1 - Quantifying the Qualitative Criteria4.2.2.2 - Generating the Judgment Matrix; 4.2.2.3 - Normalization of the Judgment Matrix; 4.2.2.4 - Calculating the Normalized Weight Matrix; 4.2.2.5 - Finding the Ideal and Anti-ideal Solutions for All Criteria; 4.2.2.6 - Finding the Weighted Distance from the Ideal and Anti-ideal Solutions; 4.2.2.7 - Calculating the GIG; 4.3 - Case Studies; 4.3.1 - Solution; 4.4 - The Effect of m and ξ on l and GIG; 4.5 - Problems; References; 5 - CCHP Load Calculations; 5.1 - Introduction; 5.2 - Weather Information; 5.3 - Load Calculators
  • 5.4 - Load Calculation Example

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