Specifications - Bureau of Reclamation
Author : United States. Bureau of Reclamation
Publisher :
Page : 234 pages
File Size : 19,54 MB
Release :
Category : Engineering
ISBN :
Author : United States. Bureau of Reclamation
Publisher :
Page : 234 pages
File Size : 19,54 MB
Release :
Category : Engineering
ISBN :
Author : Robert B. Jansen
Publisher :
Page : 348 pages
File Size : 32,35 MB
Release : 1980
Category : Dam failures
ISBN :
Author : United States. Bureau of Reclamation
Publisher :
Page : 860 pages
File Size : 39,53 MB
Release : 1973
Category : Barrages
ISBN :
Author :
Publisher :
Page : 496 pages
File Size : 42,62 MB
Release : 2001
Category : Irrigation
ISBN :
Author : Bureau Of Reclamation
Publisher :
Page : 586 pages
File Size : 35,10 MB
Release : 2011-03
Category : Technology & Engineering
ISBN : 9781839310577
Author : Kenneth D. Hansen
Publisher : McGraw-Hill Companies
Page : 328 pages
File Size : 31,4 MB
Release : 1991
Category : Technology & Engineering
ISBN :
Roller compacted concrete (RCC) represents a major advance in dam-building technology. The RCC method speeds construction & reduces the costs of building without compromising safety. This work focuses on the cutting edge of RCC design technology, describing the costs & benefits of a variety of technical approaches, & offering an extensive survey of completed RCC dams & the participants involved in building them.
Author : Jan van 't Hoff
Publisher : CRC Press
Page : 674 pages
File Size : 30,97 MB
Release : 2012-12-18
Category : Science
ISBN : 0415698448
Without proper hydraulic fill and suitable specialised equipment, many major infrastructure projects such as ports, airports, roads, industrial or housing projects could not be realised. Yet comprehensive information about hydraulic fill is difficult to find. This thoroughly researched book, written by noted experts, takes the reader step-by-step through the complex development of a hydraulic fill project. Up-to-date and in-depth, this manual will enable the client and his consultant to understand and properly plan a reclamation project. It provides adequate guidelines for design and quality control and allows the contractor to work within known and generally accepted guidelines and reasonable specifications. The ultimate goal is to create better-designed, more adequately specified and less costly hydraulic fill projects. The Hydraulic Fill Manual covers a range of topics such as: • The development cycle of a hydraulic fill project • How technical data are acquired and applied • The construction methods applicable to a wide variety of equipment and soil conditions, the capabilities of dredging equipment and the techniques of soil improvement • How to assess the potentials of a borrow pit • Essential environment assessment issues • The design of the hydraulic fill mass, including the boundary conditions for the design, effects of the design on its surroundings, the strength and stiffness of the fill mass, density, sensitivity to liquefaction, design considerations for special fill material such as silts, clays and carbonate sands, problematic subsoils and natural hazards • Quality control and monitoring of the fill mass and its behaviour after construction. This manual is of particular interest to clients, consultants, planning and consenting authorities, environmental advisors, contractors and civil, geotechnical, hydraulic and coastal engineers involved in dredging and land reclamation projects.
Author : Christine Pfaff
Publisher :
Page : 284 pages
File Size : 18,54 MB
Release : 2007
Category : Architecture
ISBN :
Author : A. J. Peterka
Publisher : Createspace Independent Pub
Page : 240 pages
File Size : 23,6 MB
Release : 2015-03-04
Category : Technology & Engineering
ISBN : 9781508722816
Although hundreds of stilling basins and energydissipating devices have been designed in conjunction with spillways, outlet works, and canal structures, it is often necessary to make model studies of individual structures to be certain that these will operate as anticipated. The reason for these repetitive tests is that a factor of uncertainty exists regarding the overall performance characteristics of energy dissipators. The many laboratory studies made on individual structures over a period of years have been made by different personnel, for different groups of designers, each structure having different allowable design limitations. Since no two structures were exactly alike, attempts to generalize the assembled data resulted in sketchy and, at times, inconsistent results having only vague connecting links. Extensive library research into the works of others revealed the fact that the necessary correlation factors are nonexistent. To fill the need for up-to-date hydraulic design information on stilling basins and energy dissipators, a research program on this general subject was begun with a study of the hydraulic jump, observing all phases as it occurs in open channel flow. With a broader understanding of this phenomenon it was then possible to proceed to the more practical aspects of stilling basin design. This monograph generalizes the design of stilling basins, energy dissipators of several kinds and associated appurtenances. General design rules are presented so that the necessary dimensions for a particular structure may be easily and quickly determined, and the selected values checked by others without the need for exceptional judgment or extensive previous experience. Proper use of the material in this monograph will eliminate the need for hydraulic model tests on many individual structures, particularly the smaller ones. Designs of structures obtained by following the recommendations presented here will be conservative in that they will provide a desirable factor of safety. However, model studies will still prove beneficial to reduce structure sizes further, to account for nonsymmetrical conditions of approach or getaway, or to evaluate other unusual conditions not described herein.
Author : National Research Council
Publisher : National Academies Press
Page : 186 pages
File Size : 36,86 MB
Release : 2009-12-19
Category : Technology & Engineering
ISBN : 0309131634
Ductile iron pipe (DIP) was introduced about 50 years ago as a more economical and better-performing product for water transmission and distribution. As with iron or steel pipes, DIP is subject to corrosion, the rate of which depends on the environment in which the pipe is placed. Corrosion mitigation protocols are employed to slow the corrosion process to an acceptable rate for the application. When to use corrosion mitigation systems, and which system, depends on the corrosivity of the soils in which the pipeline is buried. The Bureau of Reclamation's specification for DIP in highly corrosive soil has been contested by some as an overly stringent requirement, necessitating the pipe to be modified from its as-manufactured state and thereby adding unnecessary cost to a pipeline system. This book evaluates the specifications in question and presents findings and recommendations. Specifically, the authoring committee answers the following questions: Does polyethylene encasement with cathodic protection work on ductile iron pipe installed in highly corrosive soils? Will polyethylene encasement and cathodic protection reliably provide a minimum service life of 50 years? What possible alternative corrosion mitigation methods for DIP would provide a service life of 50 years?