Over 10 mio. titler Fri fragt ved køb over 499,- Hurtig levering Forlænget returret til 31/01/25

Thermodynamics and Heat Power, Ninth Edition

  • Format
  • Bog, hardback
  • Engelsk

Beskrivelse

The ninth edition of Thermodynamics and Heat Power contains a revised sequence of thermodynamics concepts including physical properties, processes, and energy systems, to enable the attainment of learning outcomes by Engineering and Engineering Technology students taking an introductory course in thermodynamics. Built around an easily understandable approach, this updated text focuses on thermodynamics fundamentals, and explores renewable energy generation, IC engines, power plants, HVAC, and applied heat transfer. Energy, heat, and work are examined in relation to thermodynamics cycles, and the effects of fluid properties on system performance are explained. Numerous step-by-step examples and problems make this text ideal for undergraduate students.

This new edition:



Introduces physics-based mathematical formulations and examples in a way that enables problem-solving.

Contains extensive learning features within each chapter, and basic computational exercises for in-class and laboratory activities.

Includes a straightforward review of applicable calculus concepts.

Uses everyday examples to foster a better understanding of thermal science and engineering concepts.This book is suitable for undergraduate students in engineering and engineering technology.

Læs hele beskrivelsen
Detaljer
  • SprogEngelsk
  • Sidetal844
  • Udgivelsesdato06-11-2020
  • ISBN139780367280918
  • Forlag Crc Press
  • FormatHardback
Størrelse og vægt
  • Vægt3650 g
  • coffee cup img
    10 cm
    book img
    17,8 cm
    25,4 cm

    Findes i disse kategorier...

    Se andre, der handler om...

    Radiation Entropy Heat pipes Compressors Power-plants Convection Heat exchangers Energy Conduction Direct energy conversion Second law of thermodynamics First law of thermodynamics work Convection Heat Transfer Heat transfer coefficient Heat transfer Real gases Kinetic energy Cogeneration Rankine Cycle Brayton cycle Heat pump Renewable Energy Generation Internal energy Carnot cycle Properties of Steam Moisture content Potential Energy Air-Standard Brayton Cycle Analysis Air Standard Otto Cycle Air Water Vapor Mixtures Air-Standard Analysis of the Otto Cycle and Heat Air-Standard Analysis of the Diesel Cycle Automotive Engine Analysis Carnot Engine Combined Modes of Heat Transfer Constant Pressure Process Cooling tower Diesel Engine Carnot Heat Pump Copyright Wiley VCH Verlag GmbH Ericsson Cycle (Regeneration) Computerized Properties Cooling Electronic Equipment Gas Power Cycles Diesel cycle Humidity Ratio Elementary Kinetic Theory of Gases Feedwater Heater Force and Mass Flow Work Frictional Effects Nonflow System Mixture Composition Nonflow Work Psychrometric Chart Rating of Power-Plant Cycles refrigeration cycles Reversed Carnot Cycle Steady-Flow System Stirling Cycle The Carnot Cycle The Dual Combustion Cycle Illustrative Problem The Gas Tables The Rankine Cycle Thermodynamic diagrams thermodynamics systems The Heat Pump The Ideal Gas solar energy systems Mollier Chart Steady Flow Gas Processes Vapor Power Cycles The Reheat Cycle The Steam Generator The Steam Turbine Nonflow Gas Processes The Regenerative Cycle thermodynamic systems Pressure of a Mixture Properties of Liquids and Gases Refrigeration Cycle Thermal efficiency Thermodynamic Properties of a Gas Mixture Thermodynamic Properties of Air–Water Vapor Mixtures Volume of a Mixture
    Machine Name: SAXO081