Sie sind bereits eingeloggt. Klicken Sie auf 2. tolino select Abo, um fortzufahren.
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
Efficiency is one of the most frequently used terms in thermodynamics, and it indicates how well an energy conversion or process is accomplished. Efficiency is also one of the most frequently misused terms in thermodynamics and is often a source of misunderstanding. This is because efficiency is often used without being properly defined first. This book intends to provide a comprehensive evaluation of various efficiencies used for energy transfer and conversion systems including steady-flow energy devices (turbines, compressors, pumps, nozzles, heat exchangers, etc.), various power plants,…mehr
Efficiency is one of the most frequently used terms in thermodynamics, and it indicates how well an energy conversion or process is accomplished. Efficiency is also one of the most frequently misused terms in thermodynamics and is often a source of misunderstanding. This is because efficiency is often used without being properly defined first. This book intends to provide a comprehensive evaluation of various efficiencies used for energy transfer and conversion systems including steady-flow energy devices (turbines, compressors, pumps, nozzles, heat exchangers, etc.), various power plants, cogeneration plants, and refrigeration systems. The book will cover first-law (energy based) and second-law (exergy based) efficiencies and provide a comprehensive understanding of their implications. It will help minimize the widespread misuse of efficiencies among students and researchers in energy field by using an intuitive and unified approach for defining efficiencies. The book will be particularly useful for a clear understanding of second law (exergy) efficiencies for various systems. It may serve as a reference book to the researchers in energy field. The definitions and concepts developed in the book will be explained through illustrative examples.
From the contents: Efficiency, Environment and Sustainability.- Introduction.- Energy, Exergy, Environment, and Sustainable Development.- Efficiency and Energy Management.- The First and the Second Laws of Thermodynamics.- Introduction.- Energy Change and Energy Transfer.- The First Law of Thermodynamics.- The Second Law of Thermodynamics.- Entropy.- Exergy.- Energy and Exergy Efficiencies.- Energy and Exergy Efficiencies.- Efficiencies of Cyclic Devices.- Efficiencies of Steady Flow Devices.- Energy Conversion Efficiencies.- Introduction.- Conversion Efficiencies of Common Devices.- Efficiencies of Mechanical and Electrical Devices.- Cryogenic Turbine Efficiencies.- Efficiencies of Power Plants.- Introduction.- Efficiencies of Vapor Power Cycles.- Efficiencies of Gas Power Cycles.
From the contents: Efficiency, Environment and Sustainability.- Introduction.- Energy, Exergy, Environment, and Sustainable Development.- Efficiency and Energy Management.- The First and the Second Laws of Thermodynamics.- Introduction.- Energy Change and Energy Transfer.- The First Law of Thermodynamics.- The Second Law of Thermodynamics.- Entropy.- Exergy.- Energy and Exergy Efficiencies.- Energy and Exergy Efficiencies.- Efficiencies of Cyclic Devices.- Efficiencies of Steady Flow Devices.- Energy Conversion Efficiencies.- Introduction.- Conversion Efficiencies of Common Devices.- Efficiencies of Mechanical and Electrical Devices.- Cryogenic Turbine Efficiencies.- Efficiencies of Power Plants.- Introduction.- Efficiencies of Vapor Power Cycles.- Efficiencies of Gas Power Cycles.
From the contents: Efficiency, Environment and Sustainability.- Introduction.- Energy, Exergy, Environment, and Sustainable Development.- Efficiency and Energy Management.- The First and the Second Laws of Thermodynamics.- Introduction.- Energy Change and Energy Transfer.- The First Law of Thermodynamics.- The Second Law of Thermodynamics.- Entropy.- Exergy.- Energy and Exergy Efficiencies.- Energy and Exergy Efficiencies.- Efficiencies of Cyclic Devices.- Efficiencies of Steady Flow Devices.- Energy Conversion Efficiencies.- Introduction.- Conversion Efficiencies of Common Devices.- Efficiencies of Mechanical and Electrical Devices.- Cryogenic Turbine Efficiencies.- Efficiencies of Power Plants.- Introduction.- Efficiencies of Vapor Power Cycles.- Efficiencies of Gas Power Cycles.
From the contents: Efficiency, Environment and Sustainability.- Introduction.- Energy, Exergy, Environment, and Sustainable Development.- Efficiency and Energy Management.- The First and the Second Laws of Thermodynamics.- Introduction.- Energy Change and Energy Transfer.- The First Law of Thermodynamics.- The Second Law of Thermodynamics.- Entropy.- Exergy.- Energy and Exergy Efficiencies.- Energy and Exergy Efficiencies.- Efficiencies of Cyclic Devices.- Efficiencies of Steady Flow Devices.- Energy Conversion Efficiencies.- Introduction.- Conversion Efficiencies of Common Devices.- Efficiencies of Mechanical and Electrical Devices.- Cryogenic Turbine Efficiencies.- Efficiencies of Power Plants.- Introduction.- Efficiencies of Vapor Power Cycles.- Efficiencies of Gas Power Cycles.
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Internetauftritt der Steintor 70. V V GmbH (zukünftig firmierend: buecher.de internetstores GmbH)
Geschäftsführung: Monica Sawhney | Roland Kölbl
Sitz der Gesellschaft: Hannover
Amtsgericht Hannover HRB 227001
Steuernummer: 321/neu