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BUL 035

Contributions to the Hydrogeology of Alberta

Information includes map production procedures, description of reconnaissance maps and description of how the maps were used in the program. The program planned to publish hydrogeological maps of the groundwater conditions and their controlling ... Show Abstract

Toth, J.  Ozoray, G.F.  Wallick, E.I.  Bibby, R.  Gabert, G.M.  Stein, R.  Lytviak, A.T.  1977-01-01

INF 091

International System (SI) of Units in Hydrogeology

International System (SI) of Units in Hydrogeology In 1970 the White Paper on Metric Conversion proposed that Canada adopt the International System of Units (SI). The proposal was accepted and the Metric Commission was established in 1971 to ... Show Abstract

Ceroici, W.J.  1980-01-01

INF 141

Energy Resources Conservation Board/Alberta Geological Survey Three-Dimensional Geological Modelling Workshop

Energy Resources Conservation Board/Alberta Geological Survey Three-Dimensional Geological Modelling Workshop To take advantage of recent advances in collecting airborne geophysical data and integrating them into three-dimensional geological models ... Show Abstract

Slattery, S.R.  Atkinson, N.  2012-08-29

MAP 120

Hydrogeological map of the Oyen area, Alberta, NTS 72M

Hydrogeological map of the Oyen area, Alberta, NTS 72M The Hydrogeological Map Series of Alberta provides 1:250000-scale hydrogeological maps over much of Alberta.� Through the use of colour, the maps and accompanying ... Show Abstract

Borneuf, D.M.  2005-10-17

ESR 1978-02

Hydrogeology of the Oyen Area, Alberta

Hydrogeology of the Oyen Area, Alberta The Belly River, Bearpaw, and Horseshoe Canyon Formations of Late Cretaceous age constitute the upper bedrock in the map area. The surficial deposits are generally quite thin (usually less than 50 ft or 15 m) ... Show Abstract

Borneuf, D.M.  1979-01-01

ESR 1976-01

Hydrogeology of the Edmonton area, (northeast segment), Alberta

Hydrogeology of the Edmonton area, (northeast segment), Alberta The northeast segment of the Edmonton map area (NTS 83H) covers about 1750 square miles (4500 km�) within the Eastern Alberta Plains physiographic region. Within these deposits, ... Show Abstract

Stein, R.  1976-01-01

ESR 1986-01

Alberta groundwater observation-well network

Major natural processes affecting groundwater levels include recharge and discharge of water to and from the saturated zone respectively, and movement of water in hydrodynamic flow systems. Other important processes affecting levels are atmospheric ... Show Abstract

Gabert, G.M.  1986-01-01

ESR 2003-04

Chemical and Physical Hydrogeology of Coal, Mixed Coal-Sandstone and Sandstone Aquifers from Coal-Bearing Formations in the Alberta Plains Region, Alberta

Chemical and Physical Hydrogeology of Coal, Mixed Coal-Sandstone and Sandstone Aquifers from Coal-Bearing Formations in the Alberta Plains Region, Alberta Natural gas from coal (NGC) exploration in Alberta is increasing as new technology and ... Show Abstract

Lemay, T.G.  2003-09-01

ESR 1972-12

A Legend and Guide for the Preparation and Use of the Alberta Hydrogeological Information and Reconnaissance Map Series

The hydrogeological mapping project undertaken by the Groundwater Division, Research Council of Alberta, created the need for a composite legend and guide for reference and use with the two map series: information and reconnaissance at scales of ... Show Abstract

Badry, A.  1972-01-01

OFR 2009-11

Simulation of Geothermal Flow in Deep Sedimentary Basins in Alberta

Abstract: With geothermal gradients of up to 50°C/km, Alberta has the potential to use geothermal energy economically. Mathematical models are excellent tools to predict the flow of geothermal energy and to forecast the productivity of a geothermal reservoir. This report investigates the flow of geothermal energy under the influence of water density variations due to temperature changes. As temperature increases, water density decreases, leading to upwelling of hot water. The associated interaction between heat flux and water flow is simulated numerically using an extended version of the HydroGeoSphere model that has been further developed.Alberta Geological Survey developed a groundwater model that numerically simulates the coupled flow of formation fluids and geothermal energy. The model accounts for variations of fluid density and viscosity and for buoyancy-induced groundwater flow. A wide temperature range of 0°C to 300°C is covered. The model has been verified against existing numerical and analytical test cases of free convective geothermal groundwater flow. Future work will also incorporate the effect of water salinity on buoyancy-induced fluid flow. Place Keywords 72e 72l 72m 73d 73e 73l 73m 74d 74e 74l 74m 82g 82h 82i 82j 82n 82o 82p 83a 83b 83c 83d 83e 83f 83g 83h 83i 83j 83k 83l 83m 83n 83o 83p 84a 84b 84c 84d 84e 84f 84g 84h 84i 84j 84k 84l 84m 84n 84o 84p alberta canada Theme Keywords geology geothermal hydrogeology numerical modelling saline

Graf, T.  2009-07-10