Handbook of Water and Wastewater Treatment Plant Operations - CRC Press BookWelcome to CRCPress. Please choose www. Your GarlandScience. The student resources previously accessed via GarlandScience. Resources to the following titles can be found at www. What are VitalSource eBooks? For Instructors Request Inspection Copy.
Water and Wastewater Treatment: A Guide for the Nonengineering Professional, Second Edition
This Handbook is an authoritative reference for process and plant engineers, water treatment plant operators and environmental consultants. Practical information is provided for application to the treatment of drinking water and to industrial and municipal wastewater. The author presents material for those concerned with meeting government regulations, reducing or avoiding fines for violations, and making cost-effective decisions while producing a high quality of water via physical, chemical, and thermal techniques. Included in the texts are sidebar discussions, questions for thinking and discussing, recommended resources for the reader, and a comprehensive glossary. Primary: Process engineers; pollution control engineers; pollution prevention specialists; environmental, health and safety professionals; environmental managers; environmental consultants and consulting firms; equipment manufacturers and suppliers; treatment plant operators; treatment facilities e.
Handbook of Water and Wastewater Treatment Technologies. Nicholas P Cheremisinoff.
Please purchase via www. Editor s : S Judd T Stephenson. Binding: Paperback. The new series intends to help readers become familiar with design, operation and management of water and wastewater treatment processes without having to refer to any other texts. Units in the text covering chemistry and biology include: fundamentals of water chemistry; chemical kinetics and equilibria; colloid and surface chemistry; fundamentals of microbiology; fundamentals biochemistry and microbial kinetics. The concept of Process Engineering is introduced through units on: mass and heat balances; mass and heat transfer; reactor design theory; engineering hydraulics and particle settlement.