Sale!

Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition – PDF ebook

Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition – PDF ebook Copyright: 2021, Edition: 3rd, Author: Pat M. Cashman; Martin Preene, Publisher: CRC Press, Print ISBN: 9780367504748, etext ISBN: 9781000356427, Format: PDF

Original price was: $99.00.Current price is: $23.00.

Buy Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition PDF ebook by author Pat M. Cashman; Martin Preene – published by CRC Press in 2021 and save up to 80%  compared to the print version of this textbook. With PDF version of this textbook, not only save you money, you can also highlight, add text, underline add post-it notes, bookmarks to pages, instantly search for the major terms or chapter titles, etc.
You can search our site for other versions of the Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition PDF ebook. You can also search for others PDF ebooks from publisher CRC Press, as well as from your favorite authors. We have thousands of online textbooks and course materials (mostly in PDF) that you can download immediately after purchase.
Note: e-textBooks do not come with access codes, CDs/DVDs, workbooks, and other supplemental items.
eBook Details:

Full title: Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition
Edition: 3rd
Copyright year: 2021
Publisher: CRC Press
Author: Pat M. Cashman; Martin Preene
ISBN: 9780367504748, 9781000356427
Format: PDF

Description of Groundwater Lowering in Construction: A Practical Guide to Dewatering 3rd Edition:
The present-day power grid is basically a complex power transmission network with risks of failure due to unplanned attacks and contingencies, and therefore, assessment of vulnerability of transmission network is important and the process is based on contingency approach. This book deals with the methods of assessment of the grid network vulnerability and addresses the grid collapse problem due to cascaded failures of the transmission network following an attack or an unplanned contingency. Basic mitigation aspects for the network has been explored and the immunity of such a power transmission network against vulnerable collapse has been described using mathematical models.