Opis
Energy Management Principles – Applications, Benefits, Savings – 2nd Edition – Craig B. Smith, Kelly E. Parmenter
Description
Energy Management Principles: Applications, Benefits, Savings, Second Edition is a comprehensive guide to the fundamental principles and systematic processes of maintaining and improving energy efficiency and reducing waste.
Fully revised and updated with analysis of world energy utilization, incentives and utility rates, and new content highlighting how energy efficiency can be achieved through 1 of 16 outlined principles and programs, the book presents cost effective analysis, case studies, global examples, and guidance on building and site auditing.
This fully revised edition provides a theoretical basis for conservation, as well as the avenues for its application, and by doing so, outlines the potential for cost reductions through an analysis of inefficiencies.
Key features
- Provides extensive coverage of all major fundamental energy management principles
- Applies general principles to all major components of energy use, such as HVAC, electrical end use and lighting, and transportation
- Describes how to initiate an energy management program for a building, a process, a farm or an industrial facility
Table of contents
Dedication
List of Figures
List of Tables
Foreword to the First Edition
Preface
Acknowledgments
Chapter 1. Introduction
Abstract
Introduction
Responding to a Crisis
Purpose of this Book
Defining Energy Management
Conclusions
Chapter 2. Catalysts for Energy Management
Abstract
Introduction
Growing Demand for Energy
Supply Constraints
Environmental Impacts
Policy and Regulatory Matters
Energy Costs
Benefits of Energy Management
A Look Back
Conclusions
Chapter 3. General Principles of Energy Management
Abstract
Introduction
Approaches
General Principles
Conclusions
Chapter 4. Planning For Energy Management
Abstract
Introduction
Initiation and Planning Phase
Audit and Analysis Phase
Implementation and Continuous Assessment Phase
Conclusions
Chapter 5. Understanding Utility Rates and Programs
Abstract
Introduction
Electricity Rates
Energy Management Opportunities for Electricity Charges
Natural Gas Rates
Coal and Fuel Oil Rates
Energy Management Opportunities for Other Fuels
Utility Programs
Conclusions
Chapter 6. Building and Site Energy Audits
Abstract
Introduction
General Methodology
Site Audits
Building Audits
Varying Levels of Audits
Conclusions
Chapter 7. Energy Analysis
Abstract
Introduction
Measures of Efficiency
Factors Contributing to Inefficiency
Appropriate Baseline Conditions
Estimating Savings
Electric Load Analysis
Conclusions
Chapter 8. Management of Heating and Cooling
Abstract
Introduction
General Principles of Energy Management in HVAC Systems
The Requirements for Human Comfort and Health
Basic Principles Governing HVAC System Operation
Analyzing Heating and Cooling Loads in Buildings
Codes and Standards
Description of Typical Air Distribution Systems
Energy Management Opportunities in HVAC Systems
Conclusions
Chapter 9. Lighting Management
Abstract
Introduction
General Principles of Electrical Energy Management for Lighting
Lighting System Design Considerations
Lighting Regulations, Codes and Standards
Overview of Lamp Types
Energy Management Opportunities in Lighting Systems
Conclusions
Chapter 10. Transportation
Abstract
Introduction
History
Recent Trends in Fuel Efficiency
Greenhouse Gas Emissions from Vehicles
How Vehicle Electrification Can Help
Energy Management Opportunities
Conclusions
Chapter 11. Management of Process Energy
Abstract
Introduction
Scope of This Chapter
General Principles for Process Energy Management
Process Heat
Transformers and Electrical Distribution Systems
Electric Motors and Drives
Pumps and Fans
Refrigeration and Process Cooling
Electrolytic Systems
Compressed Air
Manufacturing Processes
Conclusions
Chapter 12. Integrated Building Systems
Abstract
Introduction
General Principles of Energy Management in Building Systems
Environmental Conformation
Building Function
Occupancy and Use
Passive Design Considerations
Building Envelope Design Considerations
Integration of Building Systems
Peak Demand Control
Energy Storage
Cogeneration
Sustainable Design and Green Buildings
Conclusions
Chapter 13. The Economics of Efficient Energy Use
Abstract
Introduction
General Considerations
Basic Concepts of Energy Studies
Examples of Economic Analysis Methods
Cost of Money
Internal Rate of Return
Simplification of Analysis
Advanced Economic Analyses
Comparison of Methods
Effect of Taxes and Escalation
Financing Energy Management Projects
Conclusions
Chapter 14. Implementation and Continuous Assessment
Abstract
Introduction
General Principles for Implementing and Assessing Energy Management Programs
Establishing Goals
Project Prioritization and Implementation
Inform, Train, and Motivate Personnel
Measurement, Verification, and Reporting
Establish the Basis for an Ongoing Program
Conclusions
Appendix A. Abbreviations, Symbols, and Units
Appendix B. Units and Conversion Factors
Introduction
Appendix C. Energy Management Data
Index
About the authors
CS
Craig B. Smith
Craig Smith retired as President and Chairman, DMJM H+N, a subsidiary of AECOM Technology Corporation, an international engineering and construction management firm. He began as an assistant professor of engineering at UCLA, where he was also the assistant director of the nuclear energy laboratory. After UCLA, he cofounded ANCO Engineers, Inc., an engineering consulting firm in Los Angeles, later joining AECOM as vice president of Daniel Mann, Johnson, and Mendenhall (DMJM). He subsequently became senior vice president, executive vice president, and COO. In 1999, he became president of Holmes and Narver, Inc. He has been broadly involved in the field of energy and power, responsible for design and construction management, tests, and research on most types of electrical generating facilities.
Affiliations and expertise
Former President and Chairman, DMJM+H&N, Los Angeles, CA, USA
KP
Kelly E. Parmenter
Dr. Parmenter has over 20 years’ experience in the energy sector as an energy consultant and project manager. She is currently a Principal Project Manager for Applied Energy Group’s Program Evaluation and Load Analysis practice area where she manages program evaluations for utility clients, including analyzing savings for energy efficiency and demand response projects. Previously, she led the Engineering Services team, providing energy audits at commercial and industrial facilities and delivering a wide range of technical support to utility clients. Throughout her energy career she has carried out numerous projects that involve identifying, assessing, and furthering the development of emerging technologies and solutions to improve energy efficiency and reduce adverse environmental impacts. Dr. Parmenter is a Certified Energy Manager and holds B.S., M.S., and Ph.D. degrees in Mechanical Engineering from the University of California, Santa Barbara. She has authored over 100 energy-related reports and articles for various clients on numerous subjects.
Affiliations and expertise
Ph.D., C.E.M, Principal Project Manager, Applied Energy Group, Inc, California, USA
