Skip to main content

Strategic Environmental Management for Engineers

Strategic Environmental Management for Engineers

O'Brien & Gere Engineers Inc., Robert Bellandi (Editor)

ISBN: 978-0-471-09221-6

Jul 2004

320 pages

Select type: Hardcover

In Stock

$130.00

Description

Bringing together the real-world insights of engineers from the engineering and construction firm O’Brien & Gere and the teaching experiences of respected engineering educators, Strategic Environmental Management for Engineers offers readers the principles, tools, and motivation to design and implement engineering projects in harmony with sustainable development.

Helpful coverage in Strategic Environmental Management for Engineers includes:

  • All key environmental management tools, including life-cycle assessment, environmental metrics, extended producer responsibility, ISO 14000 environmental management systems, and ""zero waste"" options
  • Valuable support for implementing SEM into an organization by function (e.g., R&D, engineering design, production, etc.) and by typical industry processes (e.g., papermaking, ethanol production, aluminum production, automobile manufacturing, etc.)

Buy Both and Save 25%!

This item: Strategic Environmental Management for Engineers

Integrated Environmental Modeling: Pollutant Transport, Fate, and Risk in the Environment (Hardcover $160.00)

Original Price:$290.00

Purchased together:$217.50

save $72.50

Cannot be combined with any other offers.

Contributors.

Acknowledgments.

Introduction You Can Get There from Here: Green Engineering—Precursors, Principles, and Prospects (Bill Vitek and Ross Whaley).

Precursors.

Principles.

Prospects.

1. Understanding Industrial Ecology and the Multiple Dimensions of Sustainability (Thomas P. Seager).

Introduction.

Life-Cycle Assessment.

Systems Analysis.

Metrics of Industrial Ecology.

Beyond Impacts Aggregation: Multicriteria Decision Analysis.

Design for Sustainability.

Exercises.

2. Life-Cycle Management (Susan E. Powers and Anahita A. Williamson).

Standard Implementation of LCA.

Alternative Approaches for LCAs.

Tools for Conducting an LCA.

Valuing the LCA in Business Decisions.

3. Extending Product Responsibility in the United States: Life-Cycle Opportunities (Hilary G. Grimes).

Extended Product Responsibility in the United States.

Extended Product Responsibility in the Product Life Cycle.

Rationale for Employing EPR.

Implementing EPR in the United States.

Case Studies in Industry.

Consequences of Implementing EPR in the United States.

Conclusion.

4. Pollution Potential Approach to Environmental Optimization—The Case of CFC Replacements (Thomas P. Seager and Thomas L. Theis).

Summary.

Introduction.

Exergy.

Pollution Potential.

Sustainability Metrics in Design: Freezer Insulation.

Limitations.

Exercises.

5. Implementation of an ISO 14001 Environmental Management System (Peter S. Segretto and Marc J. Dent)

Multiple Criteria for Success.

What Is ISO 14000?

Why Implement ISO 14001?

Elements of the ISO 14001 Management System.

Exercises.

6. Zero Liquid Discharge—The Ultimate Design Challenge (Timothy J. Barry and Michael J. Tracy).

Water Use and Automobile Manufacturing.

DaimlerChrysler de Mexico—Treatment Overview.

7. Green Chemistry (Mark R. Greene).

Introduction.

The 12 Principles of Green Chemistry.

Expert System.

Assessing Green Approaches to Chemistry.

Green Chemistry in Practice.

Index.