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1	A multidisciplinary analysis of the hydrogeology of the Maricopa superconducting super collider (SSC) site, Maricopa County, Arizona Brooks, Steven John, 1959- January 1988 (has links) Geology and tunnelling was given by the U.S. Department of Energy (DOE) as the most important criteria in siting the SSC. The impact of ground water on construction and vice-versa is an important part of a sites geologic and tunnelling attributes, and its potential environmental impacts. Because of the site's undeveloped nature, only limited reconnaissance-type investigations of the regions hydrogeology had occurred prior to the siting of the SSC. To overcome this ignorance geological, geotechnical, and geophysical characteristics of the site were used to describe the hydrogeology. A hydrologically ideal site would lie above any aquifers, have little or no surface water interaction, and yet, have an adequate and reliable supply of good quality water nearby. The Maricopa site possesses all of these characteristics while apparently being absent of subsidence due to ground-water withdrawal. Superconducting Super Collider.
2	Hydrological considerations in locating the proposed Superconducting Supercollider in the Sierrita Mountains, Arizona Davis, James Paulin Tilton, 1954- January 1989 (has links) The Sierrita Mountains were investigated as a site for the proposed Superconducting Supercollider, which was to be housed in a ring-shaped tunnel more than 80 km (50 miles) in circumference. Geostatistical techniques including kriging were used to interpolate the potentiometric surface of the ground water and quantify its uncertainty along the proposed ring alignment to assess potential dewatering problems, based on the sparse water-level information available. Potential water supplies for the Superconducting Supercollider complex include local and imported good-quality ground water, poorer quality but abundant Central Arizona Project water, and Tucson or Green Valley municipal water. Ground water has the most suitable quality, but its development within the Tucson Active Management Area is restricted by state law. Superconducting Super Collider.
3	Social Assessment of High Technology Stoffle, Richard W., Traugott, Michael W., Jensen, Florence V., Copeland, Robert January 1987 (has links) This is a scoping report that presents conclusions and recommendations regarding the potential relationship between the people of Monroe and Lenawee Counties, Michigan and proposal to consider locating the Superconducting Super Collider (SSC) in these counties. The study area is located within the two counties but includes only the extreme eastern portion of Lenawee County. This report discusses the social and cultural impacts that could derive from siting the SSC in these counties, the possible local resident responses to these potential SSC impacts, and potential statewide responses to the project. This scoping research was founded through a contract between the Michigan Energy and Resource Research Associations (MERRA) and the Institute for Social Research, The University of Michigan. Scoping g research was conducted between April 15, 1986 and August 31, 1986. Social Impact Assessment Superconducting Super Collider Michigan
4	The Superconducting Super Collider at the Stockbridge, Michigan Site: Community Support and Land Acquisition. Stoffle, Richard W., Traugott, M., Harshbarger, C., Jensen, F., Evans, M., Drury, P. January 1988 (has links) At the request of the Governor of Michigan, researchers from the Institute for Social Research (ISR) at The University of Michigan conducted studies of the social effects of and community support for the proposed Superconducting Super Collider (SSC) project in Michigan. Their initial work in 1986 focused on Dundee, in southeastern Michigan, the first site considered by Michigan as a location for the SSC. The State eventually presented proposals for two Michigan sites: the Dundee location and a location near Stockbridge, which is situated in south central Michigan. Research was conducted at both sites. Social Impact Assessment Superconducting Super Collider Michigan
5	In situ measurement of the cohesion of a cemented alluvial soil Muller, Eugene, 1951- January 1989 (has links) A modified plate load (MPL) test was developed to measure the in situ cohesion of a carbonate or caliche cemented soil. The MPL test was performed on the crest of a vertical cut in alluvial soil with a steel plate loaded until the soil failed. A three-dimensional slope stability analysis was then used to back calculate soil cohesion. In situ test results were used in conjunction with laboratory testing of deaggregated soils samples to completely define the Mohr-Coulomb strength parameters of the in situ soil. In order to check the result of the in situ test procedure, the field test conditions were modeled for use in a two-dimensional slope stability analysis using the computer program CSLIP1. A comparison of the results shows reasonable values of soil cohesion were obtained using the MPL test method. Soils -- Arizona -- Maricopa County. Superconducting Super Collider. Soil consolidation.
6	A measurement of R = sigma x B(p not p W(superscript+-) e(superscript+-)nu) on sigma x B(p not p Z(superscript o) e(superscript+)e(superscript-) using the CDF detector in pp collisions at square root of s=1800 GeV / Wahl, John January 1999 (has links) Thesis (Ph. D.)--University of Chicago, Dept. of Physics, August 1999. / Includes bibliographical references. Also available on the Internet.
7	EXTRACTION OF SURFACE AND SUBSURFACE GEOLOGIC INFORMATION FROM DIGITAL IMAGES OF THE PROPOSED ARIZONA SUPERCONDUCTING SUPER COLLIDER SITES (REMOTE SENSING) Poulton, Mary Moens, 1962- January 1987 (has links) No description available. Superconducting Super Collider. Geology, Structural. Geology -- Arizona -- Pima County. Geology -- Arizona -- Maricopa County.
8	Geotechnical investigations of two potential sites for the proposed Arizona superconducting super collider Glynn, Mary Eileen, 1960- January 1987 (has links) Two sites around the Maricopa and Sierrita Mountains respectively were investigated to provide supporting data for the State of Arizona proposal to the Department of Energy to construct a Superconducting Super Collider (SSC) facility. The main feature of the facility is a 53 mile racetrack shaped tunnel. The proposed Maricopa SSC tunnel passes through three main types of rock--approximately 35 miles of indurated fanglomerates, 10 miles of granodiorites and 8 miles of volcanic and sedimentary rocks. The proposed Sierrita SSC tunnel also passes through three main rock types--approximately 19 miles of indurated fanglomerates, 18 miles of granodiorites and granites and 16 miles of volcanic and associated rocks. Data were obtained from three sources--existing data; field investigations including drill logs and geophysics and laboratory testing. Empirical design approaches were compared with rock classifications (RQD, RMR, Q) at the tunnel horizon. Results indicate mostly routine tunneling at both sites. Recommendations are made for: further logging and testing of existing core; further field mapping; additional boreholes in rock and alluvium; and in situ testing of alluvium. Superconducting Super Collider.
9	ARIZONA SUPERCONDUCTING SUPER COLLIDER: ROCK MASS CLASSIFICATION FOR PRELIMINARY TUNNEL DESIGN--SIERRITA SITE (PIMA COUNTY, ARIZONA) Catallini, Louis Ernest, 1957- January 1986 (has links) No description available.
10	Geotechnical characterization of an alluvial fanglomerate Chen, Daqin, 1958- January 1988 (has links) The Department of Energy (DOE) has recently announced that the Superconducting Super Collider (SSC) will soon be built somewhere in the United States. Preliminary geophysical studies indicate that the Sierrita site 35 miles southwest of Tucson has geological conditions that would facilitate construction of the SSC. The Maricopa site southwest of Phoenix is also one of the two potential sites in Arizona. However, several additional geotechnical investigations were required to convincingly demonstrate the suitability of these two locations. The present research program identified the geotechnical properties of the soils at the two sites through various levels of laboratory and field testing. The significance of these results are discussed and recommendations are given. Superconducting Super Collider.

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