Hydrologic Engineering Analysis Concepts for Cost-shared Flood Damage Reduction Studies
Author: United States. Army. Corps of Engineers
Publisher:
Published: 1994
Total Pages:
ISBN-13:
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Author: United States. Army. Corps of Engineers
Publisher:
Published: 1994
Total Pages:
ISBN-13:
DOWNLOAD EBOOKAuthor:
Publisher:
Published: 1994
Total Pages: 0
ISBN-13:
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Published: 1992
Total Pages: 82
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DOWNLOAD EBOOKAuthor: National Research Council
Publisher: National Academies Press
Published: 2000-10-20
Total Pages: 216
ISBN-13: 0309132894
DOWNLOAD EBOOKReducing flood damage is a complex task that requires multidisciplinary understanding of the earth sciences and civil engineering. In addressing this task the U.S. Army Corps of Engineers employs its expertise in hydrology, hydraulics, and geotechnical and structural engineering. Dams, levees, and other river-training works must be sized to local conditions; geotechnical theories and applications help ensure that structures will safely withstand potential hydraulic and seismic forces; and economic considerations must be balanced to ensure that reductions in flood damages are proportionate with project costs and associated impacts on social, economic, and environmental values. A new National Research Council report, Risk Analysis and Uncertainty in Flood Damage Reduction Studies, reviews the Corps of Engineers' risk-based techniques in its flood damage reduction studies and makes recommendations for improving these techniques. Areas in which the Corps has made good progress are noted, and several steps that could improve the Corps' risk-based techniques in engineering and economics applications for flood damage reduction are identified. The report also includes recommendations for improving the federal levee certification program, for broadening the scope of flood damage reduction planning, and for improving communication of risk-based concepts.
Author:
Publisher:
Published: 1995
Total Pages: 102
ISBN-13:
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Publisher:
Published: 1995
Total Pages: 68
ISBN-13:
DOWNLOAD EBOOKThis manual presents basic principles and technical procedures for hydrologic engineering analysis of flood damage reduction measures. This manual applies to HQUSACE elements, major subordinate commands, districts, laboratories, and field operating activities (FOA) having civil works responsibilities. Procedures described herein are considered appropriate and useable for hydrologic engineering analyses required for planning and design of flood damage reduction measures. Basic concepts and procedures for analyzing selected flood damage reduction measures are presented. Emphasis is placed on hydrologic engineering analyses required for economic evaluations and performance criteria associated with various measures. The manual overviews the planning problem, identifies requirements for properly sizing, locating, operating, and maintaining flood damage reduction measures. The without-project conditions and measure-specific requirements are defined. Appendices provide references to additional technical guidance and summarize computer program capabilities for meeting the plan evaluation needs.
Author: Thomas N. Debo
Publisher: CRC Press
Published: 2002-11-25
Total Pages: 1174
ISBN-13: 1420032267
DOWNLOAD EBOOKDesigned to be a stand alone desktop reference for the Stormwater manager, designer, and planner, the bestselling Municipal Stormwater Management has been expanded and updated. Here is what's new in the second edition: New material on complying with the NPDES program for Phase II and in running a stormwater quality programThe latest information on
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Publisher:
Published: 1994
Total Pages: 732
ISBN-13:
DOWNLOAD EBOOKAuthor: Earl E. Eiker
Publisher:
Published: 1996
Total Pages: 16
ISBN-13:
DOWNLOAD EBOOKAuthor: U. S. Army Corps of Engineers
Publisher: Lulu.com
Published: 2015-11-01
Total Pages: 64
ISBN-13: 9781329661646
DOWNLOAD EBOOKRisk involves exposure to a chance of injury or loss. The fact that risk inherently involves chance leads directly to a need to describe and to deal with uncertainty. Corps policy has long been (1) to acknowledge risk and the uncertainty in predicting floods and flood impacts, and (2) to plan accordingly. Historically, that planning relied on analysis of the expected long-term performance of flood-damage-reduction measures, on application of safety factors and freeboard, on designing for worst-case scenarios, and on other indirect solutions to compensate for uncertainty. These indirect approaches were necessary because of the lack of technical knowledge of the complex interaction of uncertainties in predicting hydrologic, hydraulic, and economic functions and because of the complexities of the mathematics required to do otherwise.