model for calculating effects of liquid waste disposal in deep saline aquifers by Intercomp Resource Development and Engineering, inc.

Cover of: model for calculating effects of liquid waste disposal in deep saline aquifers | Intercomp Resource Development and Engineering, inc.

Published by Dept. of the Interior, Geological Survey, for sale by the National Technical Information Service in Reston, Va, Springfield, Va .

Written in English

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Subjects:

  • Waste disposal in the ground -- Mathematical models.,
  • Groundwater -- Pollution.

Edition Notes

Book details

Statementby Intercomp Resource Development and Engineering, Inc.
SeriesWater resources investigations ; 76-61, Water-resources investigations -- 76-61.
ContributionsGeological Survey (U.S.)
The Physical Object
Pagination2 pts. in 1 v. :
ID Numbers
Open LibraryOL17815737M

Download model for calculating effects of liquid waste disposal in deep saline aquifers

Get this from a library. A model for calculating effects of liquid waste disposal in deep saline aquifers. [Intercomp Resource Development and Engineering, inc.;].

Revision of the documentation for a model for calculating effects of liquid waste disposal in deep saline aquifers. Denver, Colo.: U.S. Geological Survey, Water Resources Division, (OCoLC) Material Type: Government publication, National government publication: Document Type: Book: All Authors / Contributors: Intera Environmental.

A model for calculating effects of liquid waste disposal in deep saline aquifers, Part 1—Development, Part 2—Documentation.

U.S. Geological Survey Water Resources Investigations 76– Google ScholarCited by: 1. INTERA Environmental Consultants, Inc., l, Revision of the documentation for a model calculating effects of liquid waste disposal in deep saline aquifers: U.S. Geological Survey Water-Resources Investigations Report79 p.

Intercomp,A model for calculating effects of liquid waste disposal in deep saline aquifers, Part 1 Development: U.S. Geol. Survey, Water Res. Investi., 76– Google Scholar Panel on Author: Irwin Remson, Shirley J.

Dreiss, Andre G. Journel. Revision of the documentation for a model for calculating effects of liquid waste disposal in deep saline aquifers U.S. Geol. Survey Water-Resour. Inv. 73 pp. Konikow, L.F., Hydrogeologic maps of the alluvial aquifer in and adjacent to the Rocky Mountain Arsenal, by: 1.

A model for calculating effects of liquid waste disposal in deep saline aquifers / (Reston, Va.: U.S. Geological Survey, ), by inc Intercomp Resource Development and. The use of aquifers as thermal energy storage (TES) systems effects of liquid waste disposal in deep saline aquifers.

) -A model for calculating effects of liquid waste disposal in. Revision of the Documentation for a Model for Calculating Effects of Liquid Waste Disposal in Deep Saline Aquifers, US Geological Society, WRIReston, Virginia.

Intercomp, A Model for Calculating Effects of Liquid Waste Disposal in Deep Saline Aquifer, U.S. A model for calculating effects of liquid waste disposal in deep saline aquifer ASR is troublesome in saline coastal aquifers as buoyancy effects generally cause a significant loss of injected.

Intera, Inc., Revision of the documentation for a model for calculating effects of liquid waste disposal in deep saline aquifers. U.S. Geological Survey Water Resources Investigations 79– Washington, D.C. Google ScholarAuthor: G.

van Meurs, F. Weststrate, M. Loxham. SUBSURFACE WATER POLLUTION A Selective Annotated Bibliography PART I SUBSURFACE WASTE INJECTION Produced in cooperation with Water Resources Scientific Information Center Office of Water Resources Research U.S. DEPARTMENT OF THE INTERIOR U.S. ENVIRONMENTAL PROTECTION AGENCY Office of Water Programs Division of Applied Technology Water Quality.

The U.S. Department of Energy's Office of Scientific and Technical Information. INTERA Environmental Consultants, Inc.,Revision of the documentation for a model calculating effects of liquid waste disposal in deep saline aquifers: U.S. Geological Survey Water-Resources Investigations Report79 p.

Most significant changes to original program. Deep geologic disposal of high activity and long-lived radioactive waste is gaining increasing support in many countries, where suitable low permeability geological formation in combination with engineered barriers are used to provide long term waste contaminant and minimise the impacts to the environment and risk to the biosphere.

Compared to other types of geologic media, sequestration of CO 2 in deep saline aquifers is considered to have the largest potential capacity because of the large pore volumes in sedimentary basins, the high density and solubility of CO 2 in deep saline aquifers at high pressures, and the widespread global distribution of deep saline aquifers Cited by: 2.

A thermodynamic model calculating the solubility of hydrogen sulfide (H2S) in pure water and in aqueous NaCl solutions (0−6 M, − K, 0− bar) is presented. The model is based on a specific particle interaction theory for the liquid phase and a highly accurate equation of state for the vapor phase.

With this specific interaction approach, this model is able to predict H2S. - F9ene McPeeks - U.S. Geological Rpt. tif Page 2 ] DEPARTNEhT OF THE INTERIOR HANUEL LUJAN. JR. Secretary U.S. GEOLOGICAL SURVFl Dallas L. Peck. Director Any use of trade. Sources Representation in model Waste disposal Solid waste type: household, commercial, and industrial waste sludge from water-treatment plants and air-pollution control facilities mine tailings disposal facilities uncontrolled dumps sanitary and secured landfills deep-subsurface burial (e.g., high-level radioactive waste) Liquid waste type.

This banner text can have markup. web; books; video; audio; software; images; Toggle navigation. New research from the U.S. Geological Survey details that even after the storage and/or treatment of leachate – liquid waste that moves through or drains from a landfill − it can still contain a multitude of chemicals and reflects the diverse nature of residential, industrial, and commercial waste discarded into landfills in the United States.

Groundwater is the water present beneath Earth's surface in soil pore spaces and in the fractures of rock formations.A unit of rock or an unconsolidated deposit is called an aquifer when it can yield a usable quantity of water.

The depth at which soil pore spaces or fractures and voids in rock become completely saturated with water is called the water table. A new model for predicting the hydraulic conductivity of unsaturated porous mediaEffect of wettability heterogeneity and reservoir temperature on CO 2 storage efficiency in deep saline aquifers, International Modeling the Long‐term Stability of Multi‐barrier Systems for.

brackish aquifers. However, the buoyancy effects caused by density differences may not be important in all brackish aquifer modeling. In considering the relative importance of these effects, we provide a brief discussion of mixed convection systems.

When density differences are present in a flow system, solute transport may be dependent onFile Size: 13MB. The use value of ground water depends fundamentally on the costs of producing or obtaining the water and its value in the uses to which it is ultimately put.

The costs of producing ground water typically include the costs of extraction and delivery as well as the opportunity cost of using the water. In this paper we describe CO2−PENS, a comprehensive system-level computational model for performance assessment of geologic sequestration of CO2.

CO2−PENS is designed to perform probabilistic simulations of CO2 capture, transport, and injection in different geologic reservoirs.

Additionally, the long-term fate of CO2 injected in geologic formations, including possible migration out Cited by: Deep-well injection of liquid industrial waste and other polluted water into the ground should be authorized only on a case-by-case basis, if the necessary precautions and controls for deep-well disposal can be observed and if injected wastes cannot harm nearby aquifers.

Characteristics and Performance of a Deep-Ocean Disposal System for Low-Purity CO 2 Gas via Gas Lift Effect. Takayuki Saito; Energy & FuelsBOOK REVIEWS. Ash Behaviour during Combustion and Gasification By David H. Scott. IEA Coal Research: London.

ISBN Member countries: $ Educational price: $ 1. To encourage, in all appropriate ways, recycling, reuse, and reclamation processes, and. To implement the provisions of 7 Del.C. 60, which directs the Department to put into effect a program for improved solid waste storage, collection, transportation, processing, transfer, and disposal by providing that such activities may henceforth.

References B. Adams, A digital model of the groundwater system of the Wade River‐Yemen Arab Republic, Institute of Geological Sciences, London, Rep./WD/OS/78/17, The use of underground geological repositories, such as in radioactive waste disposal (RWD) and in carbon capture (widely known as Carbon Capture and Storage; CCS), constitutes a key environmental priority for the 21 st century.

Based on the identification of key scientific questions relating to the geophysics, geochemistry and geobiology of geodisposal of wastes, this paper describes the Cited by: 2.

The redn. of the total vol. of greenhouse gases emitted to the atm. is considered a key mechanism to mitigate climate change. Geol. storage of CO2 in deep saline aquifers is currently a well-accepted method of storage, because saline aquifers have larger storage capacities than other geol.

by: Nevertheless, troubling evidence of the cumulative effects of industrial waste disposal became evident, such as acidification of forest soils, contamination of marine sediments with municipal waste sludge, and poisoning of aquifers with drainage from toxic waste dumps.

Not the least of the impending cumulative waste problems is the disposal of. tion of high-radioactive liquid waste host rocks for the deep geological disposal of nuclear waste.

The project focuses on the diffusion-driven transport of cationic species, Sr2+, Zn2+, Co2+ and Eu3+, 2SPNE SC/CE model at highly saline Size: 14MB. Land disposal of municipal and industrial waste.

Land disposal of solid waste is the groundwater contamination source of most current concern to the general public in many developed countries and of most current regulatory interest. Solid waste can be disposed in landfills, facilities engineered to safely contain the : Hongqi Wang, Shuyuan Liu, Shasha Du.

effects of climate change on groundwater feeding the mazzoccolo and capodacqua di spigno springs (central italy): first quantitative assessments; effects of eutrophication: spatial limitation of photosynthetic active radiation in lakes with deep-water anoxia. Combined heat and power from agro-industrial waste for on-and off-site use - Business Model 8.

In Otoo, Miriam; Drechsel, Pay (Eds.). Resource recovery from waste: business models for energy, nutrient and water reuse in low- and middle-income countries. A simpler model is obtained by considering aquifers or soils as composed of a series of well-mixed compartments. tile drainage and soil management were only marginally effective because artesian pressure in a saline aquifer some m deep caused a slow but continuous upward flow.

but more capable of calculating what this model can only. Full text of "Selected water resources abstracts" See other formats. You can write a book review and share your experiences. Other readers will always be interested in your opinion of the books you've read. Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them.

The aquifers are utilised widely for stockwater and domestic purposes. Approximately km north of OD the Eromanga aquifers are artesian, i.e.

their potentiometric surface lies above ground level. Figure shows the approximate westerly and southwesterly extent of artesian pressures in these aquifers, which are confined by the Bulldog Shale.This book is a timely contribution as it cuts across the water and fertilizer sectors and summarizes the state-of-the-art knowledge on plant nutrition and water management and the challenges we face in achieving the food security component of the Sustainable.2nd Ground Disposal Radioactive Waste Conf.

USAEC Rept. TID Book 2, Chalk River, Can., pp. – RICHARDSON, R. M. b. Significance of climate in relation to the disposal of radioactive waste at shallow depth below ground. Proc. on Retention and Migration of Radioactive Ions Through the Soil.

Commissariat à l’Energie Atomique.

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