Description
Larry W. Mays (Scottsdale, AZ) is Professor of Civil and Engineering at The Arizona State University and former chairman of the department. He has published extensively on water resources literature, including over 60 refered journal publications, 65 papers in proceedings of national and international conferences, 30 reports, and two chapters in The Handbook of Civil Engineers Practice. His books include: co-author of Applied Hydrology by V.T. Chow, D.R. Maidment, and L. Mays, published by McGraw-Hill in 1988; editor of Reliability Analysis of Water Distribution Systems published by ASCE in 1989; co-author of Hydrosystems Engineering and Management with Y.K. Tung and published by McGraw-Hill in 1992; co-editor of Computer Modeling of Free-Surface and Pressurized Flow published by Kluwer Publishers in 1994; author of Optical Control of Hydrosystems published by Marcel-Dekker in 1996; and editor-in-chief of Water Resources Handbook published by McGraw-Hill in 1996; Water Distribution Systems Handbook, and Hydraulic Design Handbook also published by McGraw-Hill. Water Supply Safety and Security: An Introduction Microbiological Contaminants and Threats of Concern Chemical Contaminants and Threats of Concern Drinking Water Distribution Systems Water Supply Cyber Threats and SCADA Systems Assessing the Risks of Drinking-Water Supplies from Terrorist Attacks Methodologies for Reliability Analysis and Vulnerability Assessment Development of a Consortium for Water Security and Safety: The Need for Establishing an Early Warning System Remote Monitoring and Network Models: Their Potential for Protecting the Nation’s Water Supplies Modeling Water Quality in Drinking Water Distribution Systems: Its Potential for Enhancing Water Security Source Water: Early Warning Systems and Monitoring Security Hardware and Surveillance Systems for Water Supply Systems Optimal Location of Control and Isolation Valves Development of the Next Generation of Chem/Bio Detection Hydraulic and Water Quality Modeling for Contamination Response Emergency Response Planning Emergency Water Supply in Non-Conventional Times
