Applied Thermodynamics: Software Solutions

Vapor compression Refrigeration cycle + Problems (Mathcad)

Avaliações:
( 0 )
206 pages
Idioma:
 English
This book is a supplement to the Part-III of the popular, free ebook series on Applied Thermodynamics: Software Solutions.
Este é um e-book grátis para estudantes
Inscreve-te para acesso grátis
Todos os livros de estudantes são grátis para sempre. Menos de 15% de anúncios
 
Período de 30 dias grátis
Subscrição para empresas grátis nos primeiros 30 dias, após o período $5.99/mês
Última adição
Sobre o autor

Dr. M. Thirumaleshwar graduated in Mechanical Engineering from Karnataka Regional Engineering College, Surathkal, Karnataka, India, in the year 1965. He obtained M.Sc (cryogenis) from University of Southampton, U.K. and Ph.D. (cryogenics) from Indian Institute of Science, Bangalore, India.

He...

Description
Content

This book, viz. “Applied Thermodynamics: Software solutions – Vapor compression refrigeration cycles” is a supplement to the Part-III of the popular, free ebook series on Applied Thermodynamics: Software Solutions by the same author, published by Bookboon.

In this book, as with other books of this series, the focus is on the solutions of problems using computer software. Only the essential theory and summary of equations required for calculations are given at the beginning of the chapter.

Here, we have particularly focused on solving problems with the very useful software, Mathcad. Since Mathcad does not have built-in functions to determine the properties of refrigerants, we have first written useful functions for properties of refrigerants such as R134a, R12, R22 and Ammonia (NH3) using data from NIST. Then, we demonstrate the ease with which one can do calculations, produce tables and graphs of results, and perform ‘what – if analysis’ with Mathcad, by solving a variety of problems.

Several Functions are written in Mathcad to simplify the standard and most required calculations, which, the students, teachers and researchers may find very useful.

  1. Introduction
  2. Definitions, Statements and Formulas used [1-8]
    1. Ideal vapor compression refrigeration cycle [8]
    2. Actual vapor compression refrigeration cycle [8]
  3. Problems solved with Mathcad
    1. For refrigerant R134a
    2. For refrigerant R12
    3. For refrigerant R22
    4. For refrigerant NH3
  4. References