Welcome Guest
  |   0 items in your shopping cart



Join our mailing list to recieve newsletters

Handbook of Energy Engineering, 6th Edition

Send to friend
Title: Handbook of Energy Engineering, 6th Edition
Author: Albert Thumann, D. Paul Mehta
ISBN: 1420087681 / 9781420087680
Format: Hard Cover
Pages: 500
Publisher: CRC Press
Year: 2008
Availability: Out of Stock
  • Description
  • Contents

Covering the latest codes and standards and the Energy Independence and Security Act, this edition includes information on software packages from the Best Practices Program of the U.S. Department of Energy; and emerging technologies such as oxy-fuel combustion, high efficiency burners, enhanced heat exchangers, and ceramic membranes for heat recovery. This reference will guide you step by step in applying the principles of energy engineering and management to the design of electrical, HVAC, utility, process and building systems for both new design and retrofit projects. Topics covered include how to do an energy analysis of any system; electrical system optimization; state-of-the-art lighting and lighting controls; thermal storage; cogeneration; HVAC and building system optimization; compressed air systems; third party financing and much more. The text is thoroughly illustrated with tables, graphs, diagrams and sample problems.


Chapter 1 : Codes,Standards and Legislation
Chapter 2 : Energy Economic Analysis
Chapter 3 : Energy Auditing and Accounting
Chapter 4 : Electrical System Optimization
Chapter 5 : Waste Heat Recovery
Chapter 6 : Utility System Optimization
Chapter 7 : Heating,Ventilation,Air Conditioning and Building System Optimization
Chapter 8 : HVAC Equipment
Chapter 9 : Cogeneration : Theory and Practice
Chapter 10 : Control Systems
Chapter 11 : Computer Applications
Chapter 12 : Thermal Storage
Chapter 13 : Passive Solar Energy Systems
Chapter 14 : Energy Management
Chapter 15 : Compressed Air System Optimization
Chapter 16 : Financing Energy Projects


About Us | Contact us
This page was created in 0.084012031555176 seconds