Low Carbon Energy Supply Technologies and Systems
portes grátis
Low Carbon Energy Supply Technologies and Systems
Singh, Renu; Sharma, Atul; Shukla, Amritanshu
Taylor & Francis Ltd
02/2022
344
Mole
Inglês
9780367495077
15 a 20 dias
635
Descrição não disponível.
Chapter 1 A Review of Solar Air Heater Chapter 2 Development of Different Sun-Tracking Systems for Displacement of Solar Concentrator Implanted in Tunisia Chapter 3 Solar Drying Technology: Sustainable and Low-Carbon Energy Technology Chapter 4 Experimental and Economic Performance of Two Solar Dryer Systems in Tunisia Chapter 5 Performance Enhancement of Solar PV System by Using Nano Coolants Chapter 6 Global Trends of Biofuel Production and Its Utilization Chapter 7 Biofuel: An Alternative Fuel for Fossil Fuel Chapter 8 Alternative Fuel for Transportation: Hydrogen Chapter 9 Fuel Cell Technology-Polymer Electrolyte Membrane Fuel Cell Chapter 10 Low Carbon Energy System: Role of Fuel Cell Technology Chapter 11 Solid Oxide Fuel Cells: Opportunities for a Clean Energy Future Chapter 12 Comprehensive Study of District Heating (DH) in the UK: Techno-Economic Aspects, Policy Support, and Trends Chapter 13 Potential of the Thermal Energy Storage System in Peak Shaving Chapter 14 Comparative Assessment on the Use of Energy Storage in the Building Envelopes: A Review Chapter 15 Passive and Free Cooling of Buildings Chapter 16 Sustainable Timber-Based Building Systems in the Context of Reducing Energy Performance in the Building Use Phase Chapter 17 Deployment of the Low Carbon Energy Supply Technologies for Sustainable Development Chapter 18 Development and Application of Phase Change Materials in the Biomedical Industry
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Solar Greenhouse Dryer;Flat Plate Solar Air Collector;Zero Carbon;Mixed Mode Solar Dryers;Renewable Energy;Polymer Electrolyte Membrane Fuel Cell;Sustainable Energy;Thermal Energy Storage;Biofuel;CHP Plant;Solar Photovoltaics;Fuel Cell;CO2 emissions;Moisture Content;solar air heater;Solar Air Collector;thermal system;Solar Dryer;low carbon energy supply;Open Sun Drying;sun-tracking systems;Indirect Solar Dryer;sustainable energy generation;Drying Chamber;Solid Oxide Fuel Cell;Energy Sources;Drying Rate;Constant Drying Rate Period;Energy Storage;UHI;Phase Change Materials;Sun Tracking System;GHX;DH Grid;Bipolar Plates;Average Outdoor Air Temperature
Chapter 1 A Review of Solar Air Heater Chapter 2 Development of Different Sun-Tracking Systems for Displacement of Solar Concentrator Implanted in Tunisia Chapter 3 Solar Drying Technology: Sustainable and Low-Carbon Energy Technology Chapter 4 Experimental and Economic Performance of Two Solar Dryer Systems in Tunisia Chapter 5 Performance Enhancement of Solar PV System by Using Nano Coolants Chapter 6 Global Trends of Biofuel Production and Its Utilization Chapter 7 Biofuel: An Alternative Fuel for Fossil Fuel Chapter 8 Alternative Fuel for Transportation: Hydrogen Chapter 9 Fuel Cell Technology-Polymer Electrolyte Membrane Fuel Cell Chapter 10 Low Carbon Energy System: Role of Fuel Cell Technology Chapter 11 Solid Oxide Fuel Cells: Opportunities for a Clean Energy Future Chapter 12 Comprehensive Study of District Heating (DH) in the UK: Techno-Economic Aspects, Policy Support, and Trends Chapter 13 Potential of the Thermal Energy Storage System in Peak Shaving Chapter 14 Comparative Assessment on the Use of Energy Storage in the Building Envelopes: A Review Chapter 15 Passive and Free Cooling of Buildings Chapter 16 Sustainable Timber-Based Building Systems in the Context of Reducing Energy Performance in the Building Use Phase Chapter 17 Deployment of the Low Carbon Energy Supply Technologies for Sustainable Development Chapter 18 Development and Application of Phase Change Materials in the Biomedical Industry
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Solar Greenhouse Dryer;Flat Plate Solar Air Collector;Zero Carbon;Mixed Mode Solar Dryers;Renewable Energy;Polymer Electrolyte Membrane Fuel Cell;Sustainable Energy;Thermal Energy Storage;Biofuel;CHP Plant;Solar Photovoltaics;Fuel Cell;CO2 emissions;Moisture Content;solar air heater;Solar Air Collector;thermal system;Solar Dryer;low carbon energy supply;Open Sun Drying;sun-tracking systems;Indirect Solar Dryer;sustainable energy generation;Drying Chamber;Solid Oxide Fuel Cell;Energy Sources;Drying Rate;Constant Drying Rate Period;Energy Storage;UHI;Phase Change Materials;Sun Tracking System;GHX;DH Grid;Bipolar Plates;Average Outdoor Air Temperature
