Applied Industrial Energy and Environmental Management

Industrial energy systems channel fuels and power into a variety of
energy types such as steam, direct heat, hot fluids and gases, and
shaft power for compressors, fans, pumps, and other machine-driven
equipment. All of these processes impact the environment and are
impacted by external energy and environmental policies and
regulations. Therefore many environmental management issues are
closely related to energy use and efficiency.

Applied Industrial Energy and Environmental Management
provides a comprehensive and application oriented approach to the
technical and managerial challenges of efficient energy performance
in industrial plants. Written by leading practitioners in the field
with extensive experience of working with development banks,
international aid organizations, and multinational companies, the
authors are able to offer real case studies as a basis to their
method. The book is divided into three main parts:

• Part one describes Energy and Environmental Management Systems
  (EEMS) in current use and management techniques for energy and
  environmental performance improvement.

• Part two focuses on the engineering aspects of industrial
  energy management, describing main industrial energy systems and
  how to analyse and improve their energy performance.

• Part three is the TOOLBOX on an accompanying website,
  which contains data, analytical methods and questionnaires as well
  as software programs, to support the practical application of the
  methods elaborated on in the first two parts of the book.

This book will be a valuable resource to practising energy and
environmental management engineers, plant managers and consultants
in the energy and manufacturing industries. It will also be of
interest to graduate engineering and science students taking
courses in industrial energy and environmental management

Autorentext
Dr. Z. K. Morvay, holds a PhD in electrical engineering and has more than 20 years of teaching experience at universities in Croatia, the UK and Thailand. During the early 1990s he worked for a UK energy and environmental consultancy firm, managing projects for international development banks and aid organizations, technical assistance projects for governmental and consultancy projects and feasibility studies for industry. he moved to Thailand to manage the local office just before the economic crisis in South East Asia in 1997. He developed, designed and managed the implementation of a number of energy and environmental management projects for large industrial international companies from Japan, the USA, the UK and Thailand, which often evolved into cost management projects because the theme of the day at that time was cost cutting. In addition, he has practical experience of change management, training needs assessment and support for organizational learning. He is the author of a number of professional papers and of a handbook and manuals on energy and environmental subjects. Currently, he manages a national energy efficiency project in Croatia. Dr. D. D. Gvozdenac is Professor and Chairman of Thermal Engineering at the University of Novi Sad Serbia and Thailand. This is complemented by having spent the last 15 years as an international consultant working on energy projects in Europe, Africa, South East Asia and China. He was also the director of a national energy efficiency agency and a regional energy efficiency centre. He has managed a number of energy audits in industry, solving the problems of energy and utility systems, and has developed best practice and preventive maintenance manuals for industrial equipment and machines. He is the author of a number of professional papers, editor of conference proceedings and author of training manuals. Currently, he is working on the development of a national cogeneration project in Thailand.

Klappentext
Industrial energy systems channel fuels and power into a variety of energy types such as steam, direct heat, hot fluids and gases, and shaft power for compressors, fans, pumps, and other machine-driven equipment. All of these processes impact the environment and are impacted by external energy and environmental policies and regulations. Therefore many environmental management issues are closely related to energy use and efficiency. Applied Industrial Energy and Environmental Management provides a comprehensive and application oriented approach to the technical and managerial challenges of efficient energy performance in industrial plants. Written by leading practitioners in the field with extensive experience of working with development banks, international aid organizations, and multinational companies, the authors are able to offer real case studies as a basis to their method. The book is divided into three main parts:

• Part one describes Energy and Environmental Management Systems (EEMS) in current use and management techniques for energy and environmental performance improvement.

• Part two focuses on the engineering aspects of industrial energy management, describing main industrial energy systems and how to analyse and improve their energy performance.

• Part three is the TOOLBOX on an accompanying website, which contains data, analytical methods and questionnaires as well as software programs, to support the practical application of the methods elaborated on in the first two parts of the book.
  This book will be a valuable resource to practising energy and environmental management engineers, plant managers and consultants in the energy and manufacturing industries. It will also be of interest to graduate engineering and science students taking courses in industrial energy and environmental management.

Inhalt
About the Authors. Preface.

Introductory Chapter: Framework for Energy and Environmental Management in Industry.

1. Introduction.

2. Energy Use by Industrial Operations.

3. Environmental Impacts of Industrial Operations.

4. End Use Energy Efficiency.

5. Efficiency of Using Raw Materials.

6. Global Energy Policy Framework.

7. Energy and Environmental Policies.

7.1 Integrated Pollution Prevention and Control (IPPC).

7.2 Energy Markets Deregulation and Liberalization.

7.3 Consumers' Choice in the Liberalized Energy Market.

7.4 Emissions Trading.

7.5 Compulsory Energy Efficiency Programs.

7.6 Voluntary Programs.

8. Industries' Self-Motivation for Effective Energy and Environmental Performance.

9. Environmentally Responsible Investing.

10. Where to Look for Energy and Environmental Performance Improvements.

11. Bibliography.

Part I: Energy and Environmental Management System in Industry (EEMS).

1. Introducing the Energy and Environmental Management System.

1.1 Introduction.

1.2 Definition of terms.

1.3 Energy and Environmental Management System.

1.4 Objectives of Energy and Environmental Management.

1.5 Dynamics of Energy and Environmental Management.

1.6 Human Aspects of Energy and Environmental Management.

1.7 Initiating Training, Awareness and Motivation Programs.

1.8 Bibliography.

2. The Energy and Environmental Management Concept.

2.1 Introduction.

2.2 Interactions between Energy and Production.

2.3 Energy Cost Centers.

2.4 Assigning Responsibilities for Energy and Environmental Performance.

2.6 Effective Use of Energy and Environmental Performance Indicators.

2.7 Concept of Energy and Environmental Management System.

2.8 Context of Energy and Environmental Management.

2.9 Bibliography.

3. Relationship between Energy Use and Production Volume.

3.1 Introduction.

3.2 Energy/Production Relationship by Design.

3.3 Energy/Production Relationship by Standard Operational Procedure.

3.4 Presenting the Dynamics of the Energy/Production Relationship by Sc…