Water Treatment Technologies for the Removal of High-Toxity Pollutants (NATO Science for Peace and Security Series C: Environmental Security)

Water Treatment Technologies for the Removal of High-Toxity Pollutants (NATO Science for Peace and Security Series C: Environmental Security)

by Miroslava Václavíková (Editor), Lucia Ivanicová (Editor), Ksenija Vitale (Editor), G.P. Gallios (Editor)

Synopsis

Water is essential for life, a strategic resource for every country and population. Its availability and sanitary safety is highly connected with the health and economy status of population. Burden of disease due to polluted water is a major public health problem throughout the world. Many pollutants in water streams have been identified as toxic and harmful to the environment and human health, and among them arsenic, mercury and cadmium are considered as high priority ones. Providing population with safe drinking water became the priority and at the same time a big challenge for the modern society. Many funding agencies in various countries have assigned a high priority to the envir- mental security and pollution prevention. UN, being one of them, launched the "International Decade for Action: Water for life 2005-2015. " Therefore, today's political and social climate presents an important opportunity to implement principles of sustainable development and to preserve resources essential for future life. This process requires interdisciplinary approach; it is critically important to stimulate interactions between medical doctors, chemists, physicist, materials scientists, engineers and policy makers, which are already experienced in their specific areas. It is also our ethical obligation to preserve existing water resources and existing eco systems enhancing their biodiversity. The NATO Advanced Research Workshop "Water Treatment Te- nologies for the Removal of High-Toxicity Pollutants" took place on September 13-17, 2008 in Kosice, Slovak Republic.

$203.48

Quantity

10 in stock

More Information

Format: Paperback
Pages: 356
Edition: 2010
Publisher: Springer
Published: 23 Nov 2009

ISBN 10: 904813496X
ISBN 13: 9789048134960