This interdisciplinary resource demonstrates that the solution to numerous environmental problems lies in the combination of chemical and environmental engineering. It presents over 300 practical problems with solutions provided in a detailed programmed-institutional format. This book provides calculations which show the inter-relationship between chemical and environmental engineering.
Rezensionen / Stimmen
"The combined expertise of the three authors is impressive, and the range of problems is extensive." (Journal of Environmental Quality, May/June, 2003) "...contains...environmental problems and chemical engineering solutions..." (Environmental Science & Technology, December 1, 2002) "This reference is an excellent one to have on your bookshelf." (Chemical Health & Safety, May/June 2003) "I commend the book to faculty use. As far as students are concerned, I am certain they will find the book useful..." (Journal of Hazardous Materials, Vol. 98, 2003) "...ideally written and useful for working professionals, and...valuable for senior level students..." (The Chemist, Summer 2003)
Auflage
Sprache
Verlagsort
Verlagsgruppe
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Illustrationen
Maße
Höhe: 23.9 cm
Breite: 15.9 cm
Gewicht
ISBN-13
978-0-471-40228-2 (9780471402282)
Schweitzer Klassifikation
JOSEPH P. REYNOLDS, PhD, is Professor and former Chair of the Chemical Engineering Department, Manhattan College, Bronx, New York, and coauthor of Introduction to Hazardous Waste Incineration, Second Edition (Wiley).
JOHN S. JERIS, PhD, is Environmental Engineering Professor Emeritus at Manhattan College, Bronx, New York.
LOUIS THEODORE, PhD, is Professor in the Chemical Engineering Department, Manhattan College, Bronx, New York, a contributor to Perry's Chemical Engineering Handbook, and coauthor of Introduction to Hazardous Waste Incineration, Second Edition.
Preface.PART I: CHEMICAL ENGINEERING FUNDAMENTALS.Units and Dimensions (UAD).Conservation Law for Mass (CMA).Conservation Law for Energy (CLE).Conservation Law for Momentum (CLM).Stoichiometry (STO).PART II: CHEMICAL ENGINEERING PRINCIPLES.Fluid Flow (FFL).Heat Transfer (HTR).Mass Transfer Operations (MTO).Thermodynamics (THR).Chemical Kinetics (KIN).Process Control (CTR).Process Design (PRD).PART III: AIR POLLUTION CONTROL EQUIPMENT.Fluid Particle Dynamics (FPD).Mechanical Collectors (MCC).Electrostatic Precipitators (ESP).Baghouses (BAG).Venturi Scrubbers (VEN).Hybrid Systems (HYB).Combustion (CMB). Absorption (ABS).Absorption (ADS).PART IV: SOLID WASTE.Regulations (REG).Characteristics (CHR).Nuclear/Radioactive Waste (NUC).Superfund (SUP).Municipal Waste (MUN).Hazardous Waste Incineration (HWI).Hospital/Medical Waste (MED).PART V: WATER QUALITY AND WASTEWATER TREATMENT.Regulations (REG).Characteristics (CHR).Water Chemistry (WCH).Physical Treatment (PHY).Biological Treatment (BIO).Chemical Treatment (CHM).Sludge Handling (SLU).Water Quality Analysis (WQA).PART VI: POLLUTION PREVENTION. Source Reduction (RED).Recycle/Reuse (RCY).Treatment (TRT).Ultimate Disposal (ULT).Energy Conservation (ENC).Domestic Applications (DOM).PART VII: HEALTH, SAFETY, AND ACCIDENT MANAGEMENT.Toxicology (TOX).Health Risk Analysis (HRA).Hazard Risk Analysis (HZA).Hazard Risk Assessment (HZR).Industrial Applications (IAP).PART VIII: OTHER TOPICS.Dispersion (DSP).Noise Pollution (NOP).Economics (ECO).Ethics (ETH).Statistics (STT).Indoor Air Quality (IAQ).ISO 14000 (ISO).Measurements (MEA).Index.
