Artificial storage and recovery of ground water

progress report
  • 21 Pages
  • 3.63 MB
  • English
Washington State Dept. of Ecology, Water Resources Program , Olympia, WA
Artificial groundwater recharge -- Washington (State), Aquifer storage recovery -- Washington (State), Environmental permits -- Washington (State), Water -- Storage -- Law and legislation -- Washington (State), Groundwater -- Law and legislation -- Washington (S
Other titles2001 report to the Legislature
Statementby Doug McChesney.
SeriesPublication -- no. 01-11-019, Publication (Washington (State). Dept. of Ecology) -- no. 01-11-019.
ContributionsWashington (State). Dept. of Ecology. Water Resources Program.
The Physical Object
Pagination21 p. in various foliations ;
ID Numbers
Open LibraryOL13629699M

This is the only book book published on aquifer storage recovery (ASR), a cost-effective water storage technology that has evolved rapidly during the past 25 years and is now being applied throughout the world.

The first edition was published in Artificial storage and recovery of ground water book is now out of print.5/5(1). A large, reliable and sustainable reservoir for fresh groundwater has been established for the transportation, underground storage and safe recovery of surplus desalinated seawater.

This has helped to secure the water supply of the Emirate of Abu Dhabi for the indefinite future. The Wildwood Water Utility injected 3, Mgal of water and recovered 3, Mgal, or 85 percent of the injected water, during Inthe Atlantic Electric Company1 began artificial recharge for storage and recovery at the B.L.

England Electric Generating Plant in Upper Township ( by: 2. Artificial recharge is used for storage and recovery of ground water in the estuarine sand and Cohansey aquifers in southern Cape May County and in the Kirkwood-Cohansey aquifer system in northern Cape May County, New Jersey.

Download Artificial storage and recovery of ground water EPUB

Wildwood Water Utility has injected ground water for public-supply storage since and in had four injection wells. usage to the terms artificial recharge, and aquifer storage and recovery.

Artificial recharge (AR) is probably the most commonly used term historically and for the purpose of this publication it means any engineered process (passive or active) that promotes transfer of surface water to groundwater regardless of the intended use or benefit.

Artificial ground-water recharge has become more important as water use by agriculture, industry, and municipalities increases. Water management agencies are increasingly interested in potential use of recharge for pollution abatement, waste-water disposal, and re-use and reclamation of locally available supplies.

Aquifer storage and recovery and artificial groundwater recharge wells are Class V UIC wells. In general, fluids being injected must have a water quality equivalent to the natural background groundwater quality. X X X OAR (1). Any injection activity is prohibited unless it is authorized by rule or allowed under a DEQ issued permit.

Effects of artificial recharge on ground water quality and aquifer storage recovery (ASR) were studied with spreading basins constructed in the highly agricultural region of the Central Platte, Nebraska.

A total of million m 3 of Platte River water recharged the aquifer through m 2 of the recharge basins during, and Cited by:   Various techniques have been used for artificial recharging of groundwater.

The aquifer storage and recovery (ASR) technique is a cost-effective alternative of artificial groundwater recharge for storing surplus good quality water in aquifers and pumping the same water during periods of high crop water requirements (Pyne ; Goyal et al.

Description Artificial storage and recovery of ground water FB2

Cited by: 4. Aquifer storage and recovery (ASR) is considered as a strategy for the storage of water to ensure a sustainable water supply in the Abu Dhabi emirate.

Earlier investigations have been conducted, and two sites were proposed for the installation of ASR in the surficial aquifer. Recently, the site located in the center of Abu Dhabi (sand dune area) was executed, and the second site is Cited by: 2. Artificial recharge (AR) is focused on actively moving water from the surface into ground water systems.

AR can be seen at as the storage part of aquifer storage and recovery. More than ASR facilities are in operation worldwide. Many states have ASR sites ranging from pilot projects to. Artificial Groundwater Recharge Artificial recharge is the practice of increasing by artificial means the amount of water that enters a groundwater reservoir (Todd, ).

Details Artificial storage and recovery of ground water PDF

This includes, for example, direction of water to the land surface through canals, irrigation furrows or sprinkler systems, and injection of water into the subsurface. Artificial storage and recovery can be used as a water management tool for reducing the impacts of droughts in the Lower Murrumbidgee Groundwater Area.

During low water allocation years, artificial storage and recovery can provide benefits that are three to seven times larger than the by: Artificial recharge can also be used to control seawater intrusion in coastal aquifers, control land subsidence caused by declining ground water levels, maintain base flow in some streams, and raise water levels to reduce the cost of ground water pumping.

aquifer storage and recovery (ASR) artificial recharge contamination coliform confining layer disinfection environmental values filtration groundwater (also underground water) injection well pathogens pollutant pretreatment a rock or sediment in a geological formation, group of formations or.

Regional Issues in Aquifer Storage and Recovery for Everglades Restoration: A Review of the ASR Regional Study Project Management Plan of the Comprehensive Everglades Restoration Plan [National Research Council, Division on Earth and Life Studies, Board on Environmental Studies and Toxicology, Water Science and Technology Board, Committee on Restoration of the Greater Everglades.

Aquifer Storage and Recovery. Many areas of the country are experiencing increasing demands for water from population growth and the effects of extreme weather conditions such as drought and floods.

Many areas are experiencing water supply shortages and declining groundwater levels in aquifers. Artificial recharge, i.e., the process by which water is directed into the ground to replenish an aquifer (NRC, ), has taken on increasing importance in recent decades.

Aquifer storage and recovery (ASR), which is the major theme of this report, may be viewed as a. Get this from a library. Artificial recharge of ground water by well injection for storage and recovery, Cape May County, New Jersey, [Pierre Lacombe; Geological Survey (U.S.); United States.

Army. Corps of Engineers.; New Jersey. Department of Environmental Protection.; Cape May County (N.J.). Planning Board.]. Groundwater recharge is the enhancement of natural ground water supplies using man-made conveyances such as infiltration basins, trenches, dams, or injection wells.

Aquifer storage and recovery (ASR) is a specific type of groundwater recharge practiced with the purpose of both augmenting ground water resources and recovering the water in the.

Artificial recharge is a process that involves enhancing the natural replenishment of groundwater and has widespread global applicability.

Projects are designed to actively introduce incremental surface water into groundwater aquifers during periods of excess flow in rivers or streams. Aquifer storage and recovery is the direct injection of surface water supplies such as potable water, reclaimed water, or river water into an aquifer for later recovery and use.

The injection and extraction is often done by means of a well. In areas where the rainwater cannot percolate the soil or where it is not capable of percolating it fast enough and where the rainwater is thus diverted to rivers, rainwater ASR.

These papers explore the integration of the groundwater and surface-water systems into water resources management plans that solve problems in the areas of aquifer storage and recovery systems, artificial recharge, stormwater management, water quality studies, watershed planning and management, wetlands, and modeling.

We present artificial neural network (ANN) based software for rapidly predicting the recovery effectiveness (REN) of aquifer storage and recovery (ASR) wells in fresh water aquifers.

The REN performance criterion equals the amount of the water injected in an ASR well that is recoverable via the same well during a specified extraction : Ali Forghani, Richard C. Peralta. The scientists documented significant biodegradation of NDMA to harmless end products in soils at the facility.

Their results showed that biodegradation of NDMA under both oxic and anoxic conditions (with oxygen and without oxygen) is an important component of the natural attenuation of NDMA in soils at ground-water recharge facilities.

is a platform for academics to share research papers. ANNOTATED BIBLIOGRAPHY ON ARTIFICIAL RECHARGE OF GROUND WATER THROUGH By DAVID K. TODD INTRODUCTION The increasing use of ground water for industrial, municipal, and irrigation supply in the United States has emphasized the need for recharging the ground water in many areas by artificial by: Preliminary assessment of injection, storage, and recovery of freshwater in the lower Hawthorn aquifer, Cape Coral, Florida.

storage, and recovery of freshwater in the lower Hawthorn aquifer, # Artificial groundwater recharge--Florida--Cape Coral Region\/span> \u00A0\u00A0\u00A0 schema. This rule applies to any firm, association, water users' association, corporation, irrigation district, municipal corporation, or anyone else that intends to obtain a reservoir permit to develop an underground artificial storage and recovery project pursuant to RCW This chapter does not apply to projects utilizing irrigation return flow, or to operational and seepage losses that.

Aquifer Storage Recovery: A New Water Supply and Ground Water Recharge Alternative by R. David Pyne, CH2M Hill Inc, United States, Document Type: Proceeding Paper Part of: Artificial Recharge of Ground Water Abstract: Aquifer Storage Recovery (ASR) involves treated drinking water that is stored underground by injection into a suitable storage zone during those months of the year when available Cited by: 5.

Overview. Water Supply Development, Aquifer Storage, and Concentrate Disposal for Membrane Water Treatment Facilities addresses methods to develop raw water supplies that have constant water chemistry and to reduce the concentrations of potential foulants that cause pretreatment processes to be added to plant tion and design of water supplies for all membrane processes using both.Artificial recharge may be defined as the practice of artificially increasing the amount of water that enters a groundwater reservoir.

Artificial recharge has application in waste disposal, secondary oil recovery, and land subsidence problems, as well as water supply problems.Success Stories and Case Studies. Travel and Tourism. Video, Audio and other Multimedia.