Solution Mining
Leaching and Fluid Recovery of Materials
2nd Edition
Published on 22. December 1998
Book
Hardback
470 pages
978-90-5699-633-8 (ISBN)
Description
First published in 1998. This book offers a wealth of information on the rapidly expanding field of solution mining: yhe extraction of materials from the earth by leaching and fluid recovery. This is an introductory text for students and professional engineers that is comprehensive and emphases current practice and theory. Percolation leaching of fragmented ground is covered, as well as true and modified in situ teaching. Solution mining of gold, copper and uranium ores, several slats extracted from evaporates and brines, and sulfur are discussed. Mineral teaching chemistry and kinetics, hydrology (including flow equations for various wellfields and other fluid recovery systems), environmental containment and solution mining simulation models are also included.
Reviews / Votes
"Well written and easy to read and comprehend...Problems and examples are ideal for teaching."More details
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 240 mm
Width: 161 mm
Thickness: 30 mm
Weight
866 gr
ISBN-13
978-90-5699-633-8 (9789056996338)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Book
11/2015
2nd Edition
Routledge
€76.00
Shipment within 10-20 days
E-Book
10/2013
2nd Edition
Routledge
€68.49
Available for download
E-Book
10/2013
2nd Edition
Routledge
€68.49
Available for download
Previous edition
Book
02/1992
Gordon & Breach Science Publishers Ltd
€73.23
Article exhausted; check for reprint
Person
Robert W. Barlett
Content
Heap leaching gold (silver) ore - theory; heap leaching practice (with applications to gold and silver ore); environmental control in percolation leaching; percolation leaching oxidized and secondary sulfide copper materials; percolation leaching copper mine waste (primary sulfides); solution flow during percolation of ore heaps leaching; oxygen diffusion and air flow during heap leaching; bio-oxidation heap pre-treatment of sulfide refractory gold ore and high-sulphur coal; in situ flooded leaching; in situ leaching hydrology; numerical simulation of fragmented rock leaching; evaporites, brine and sulphur; solar evaporation ponds; remediation of contaminated ground and water.