Geological analysis

The Special Issue of Resource Geology on the Hishikari deposits (Shikazono et al., 1993) includes various aspects of the Hishikari deposits (oxygen isotopes of gangue minerals, hydrothermal alteration, precipitation sequence, fluid inclusions, vertical electric profiling and electric sounding surveys, structural geological analysis, opaque minerals. 

The geologic analysis aids in both the search for and prioritization of potential sites, but the data must be integrated with the information developed by record searches, interviews and the careful development of a comprehensive site activity profile. 

A general geologic analysis of the entire region under study is essential to the development of a rational approach to site prioritization. Such a broad-based analysis also serves as the frame of reference for site specific studies during the later phases of the project. 

ISBN 978-1-4051-2519-2 (hardcover acid-free paper) 1. Sediments (Geology) -Analysis. 2. Geomorphology. I. Nash, David J. II. McLaren, Sue J. 

ConocoPhillips, Integrated Geological Analysis, 600 North Dairy Ashford Road,... 

Nelson, R.A. 1985. Geologic Analysis of Naturally Fractured Reservoirs. Gulf Publishing, Houston, Texas. 

Liu, C.P., Peng, B., Qin, XX. 2007. Geological analysis and numerical modeling of mine discharges for the Sanshandao Gold Mine 2. Simulation and prediction of mine discharges. Mine Water Environ 26 166-171. 

A large volume of data requires mathematical and computer methods for formal data verification. These methods should not be used instead of the geological analysis and correct the database independently, but find controversial points in data and show them to geologists who must take a final decision. 

In this case the geologic analysis of the uranium and SO4 " groundwater data should have resulted in exploration efforts being concentrated at the transition zone from high to low uranium contents—not within the area of high uranium content. 

Bigg, Dh4. (1982) Geological analysis of highly loaded pol3mieric composites filled with non-agglomerating spherical filler particles, Polym. Engg Sci., 22, 512-18. 

A recent review by Balaram gives an account of the various instrumental techniques used in geological analysis. These include atomic absorption spectroscopy and inductively coupled plasma atomic emission spectroscopy as well as X-ray fluorescence, isotope dilution mass spectrometry and neutron activation analysis in addition to recent developments in inductively coupled plasma mass spectrometry especially in rare earth element analysis. 

Coppersmith KJ, Youngs RR (2000) Data needs for probabilistic fault displaccanent hazard analysis. In Cello G, Tondi E (eds) The resolution of geological analysis and models for earthquake. Pergamon Press, Oxford... 

Michels R, Landais P, Elie M, Gerard L, Mansuy L (1992) Evaluation of factors influencing the thermal maturation of organic matter during confined pyrolysis experiments. Am Chem Soc Division Fuel Chem Preprints 37 1588-1594 Nelson RA (1985) Geologic analysis of naturally fractured reservoirs. Gulf, Houston, 320 PP... 

Lowman, P. D. 1969, Apollo 9 Multispectral Photography Geologic Analysis, Goddard Space Flight Center, X-644-69-423, Greenbelt, Md. 

Geologists and lunar scientists now use this technique to measure not only elements like lead, uranium, thorium, rubidium, strontium, argon, and potassium, but they also now include barium and ten of the rare earths in geologic analysis. The nuclear industry measures lithium, boron, uranium, and plutonium routinely. The technique has a potential for broad application. Major and minor phases of such elements as molybdenum (55%) and rhenium (0.1%) can be determined because accuracy is possible even in the presence of major interferences. At impurity levels of 1-500 ppm almost all of the above-mentioned elements can be determined, and, in addition, such elements as magnesium, chromium, copper, silver, calcium, nickel, and cesium. ... 

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