Abstracts of Remediation Case Studies

Abstracts of Remediation Case Studies

Author: Federal Remediation Technologies Roundtable (U.S.)

Publisher:

Published: 2007

Total Pages: 96

ISBN-13:

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This report is a collection of abstracts summarizing 10 new FRTR cost and performance case studies documenting the results and lessons learned from site remediation technology applications. The abstracts are organized by technology, and include several different technologies for treating soil or groundwater contamination or acid rock drainage, with 3 reports addressing soil cleanup, 4 reports focusing on groundwater and 3 reports focusing on treating acid rock drainage. This document also includes a table (Appendix A) identifying the specific sites, technologies, contaminants, media, and year published for the 393 case studies in the FRTR database.


Contaminated Soil ’95

Contaminated Soil ’95

Author: W.J. van den Brink

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 798

ISBN-13: 9401104158

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Towards sustainable land use Dr. P. Folstar, Member of the TNO Board of Management Dr. M. Popp, Chairman of the Board of Directors of Research Centre Karlsruhe (FZK) Ten years ago, in 1985, TNO initiated the First Conference on Contaminated Soil in Utrecht. At that time, a rather complete inventory of suspected contaminated sites existed in The Netherlands. Time had come to consider further actions for investigations, evaluation and remediation. This concern has been spreading ever since to other European countries and throughout the world. In particular, German scientists and authorities soon recognized the significance of this problem, and consequently joined TNO in organizing and funding a forum for discussions in a series of conferences. Following three venues in German cities, the 5th conference in Maastricht, a Dutch as well as a European city, marks the increasing interest in the international scientific and political community. Application of the concept of sustainable development to soil as an essential element of human existence requires an answer to the question how to meet the needs of today's generation without impairing the possibilities of mankind in the future. As we do not know the needs of the future, especially regarding the functional requirements of soil use, we can hardly do better than starting from the present priorities. This can not mean to guarantee the quality of soil functions everywhere at any time.