Burgess / Ellenbecker / Treitman | Ventilation for Control of the Work Environment | Buch | 978-0-471-09532-3 | sack.de

Buch, Englisch, 440 Seiten, Format (B × H): 161 mm x 240 mm, Gewicht: 827 g

Burgess / Ellenbecker / Treitman

Ventilation for Control of the Work Environment


Buch, Englisch, 440 Seiten, Format (B × H): 161 mm x 240 mm, Gewicht: 827 g

ISBN: 978-0-471-09532-3
Verlag: Wiley

The second edition of Ventilation Control of the Work Environment incorporates changes in the field of industrial hygiene since the first edition was published in 1982. Integrating feedback from students and professionals, the new edition includes problems sets for each chapter and updated information on the modeling of exhaust ventilation systems, and thus assures the continuation of the book's role as the primary industry textbook.
This revised text includes a large amount of material on HVAC systems, and has been updated to reflect the changes in the Ventilation Manual published by ACGIH. It uses both English and metric units, and each chapter concludes with a problem set.
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Autoren/Hrsg.

Burgess, William A
Ellenbecker, Michael J
Treitman, Robert D

Fachgebiete

Weitere Infos & Material

List of Units.

Preface.

1 Ventilation for Control.

References.

2 Principles of Airflow.

List of Symbols.

Problems.

3 Airflow Measurement Techniques.

List of Symbols.

References.

Manufacturers of Airflow Measuring Instruments.

Manufacturers of Smoke Tubes.

Problems.

4 General Exhaust Ventilation.

List of Symbols.

References.

Problems.

5 Hood Design.

List of Symbols.

References.

Appendix: Exterior Hood Centerline Velocity Models.

Problems.

6 Hood Designs for Specific Applications.

Example 6.1 Calculation of Exhaust Rate for Open-Surface Tanks.

Example 6.2 Design of a Low-Volume / High-Velocity Exhaust System.

List of Symbols.

References.

7 Chemical Laboratory Ventilation.

References.

Problems.

8 Design of Single-Hood Systems.

List of Symbols.

Example 8.1 Banbury Mixer System Designed by the Velocity Pressure Method.

Example 8.2 Degreaser System Designed by the Velocity Pressure Method.

References.

Appendix: Metric Version of Example 8.1.

Problems.

9 Design of Multiple-Hood Systems.

List of Symbols.

Example 9.1 Foundry Cleaning Room Designed by Static Pressure Balance Method.

Example 9.2 Electroplating Shop System Designed by Static Pressure Balance Method.

References.

Additional Reading.

Appendix: Metric Version of Example 9.1.

10 Fans and Blowers.

List of Symbols.

References.

Problems.

11 Air-Cleaning Devices.

List of Symbols.

References.

Problems.

12 Replacement-Air Systems.

References.

13 Quantification of Hood Performance.

List of Symbols.

References.

14 Application of Computational Fluid Dynamics to Ventilation System Design.

References.

Appendix.

15 Reentry.

List of Symbols.

References.

Problems.

Index.

WILLIAM A. BURGESS is Associate Professor of Occupational Health Engineering, Emeritus, at the Harvard School of Public Health. He is the 1996 recipient of the Donald E. Cummings Memorial Award of the American Industrial Hygiene Association, and the author of Recognition of Health Hazards in Industry (Wiley).

MICHAEL J. ELLENBECKER is Professor of Industrial Hygiene in the Department of Work Environment at the University of Massachusetts Lowell and the Director of the Toxics Use Reduction Institute. A Certified Industrial Hygienist, Dr. Ellenbecker received his ScD in environmental health sciences from Harvard.

ROBERT D. TREITMAN, a graduate of Brown University and the Harvard School of Public Health, has done extensive research and consulting in industrial hygiene and indoor air pollution. He is currently Vice President and co-owner of Softpro, Inc., in Waltham, Massachusetts.

CONTRIBUTORS-Professor Michael Flynn, University of North Carolina at Chapel Hill, has contributed a chapter introducing the application of computational methods to the study of ventilation. Martin Horowitz, an industrial hygiene pr actitioner at Analog Devices, has presented an overview of the techniques for the identification and control of contaminant reentry.

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