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Wilson, M. A., R. J. Pugmire, J. Karas, L. B. Alemany, W. R. Woolfenden, D. M. Grant, and P. H. Given, (1984). Carbon distribution in coals and coal macerals by cross polarization magic angle spinning c-13 nuclear magnetic-resonance spectrometry, Analytical Chemistry, v. 56 (6), pp. 933-43.
Cronauer, D. C., R. G. Ruberto, R. G. Jenkins, A. Davis, P. C. Painter, D. S. Hoover, M. E. Starsinic, and D. Schlyer, (1983).Liquefaction of partially dried and oxidized coals .2. Coal characteristics, Fuel, v. 62 (10), pp. 1124-32.
Cronauer, D. C., R. G. Ruberto, R. S. Silver, R. G. Jenkins, I. M. K. Ismail, and D. Schlyer, (1983). Liquefaction of partially dried and oxidized coals .1. Coal drying and oxidation, Fuel, v. 62 (10), pp. 1116-23.
Davis, A., D. S. Hoover, L. D. Wakeley, and G. D. Mitchell, (1983 December). The Microscopy of Mesophase Formation and of Anisotropic Cokes Produced From Solvent-Refined Coal, Journal of Microscopy, v. 132, pp. 315-331.
Davis, A., K. W. Kuehn, D. H. Maylotte, and R. L. St Peters, (1983). Mapping of polished coal surfaces by automated reflectance microscopy, Journal of Microscopy-Oxford, v. 132, (DEC), pp. 297-302.
Havens, J. R., J. L. Koenig, D. Kuehn, C. Rhoads, A. Davis, and P. C. Painter, (1983). Characterization of coals and coal oxidation by magic-angle c-13 NMR-spectroscopy. Fuel, 62, (8), 936-41.
Johns, R. T., (1983 October 24-26). Gulf coast experience with Welex's TMD and Schlumberger's TDT K, Shell Oil Petrophysical and Geological Conference, Houston, TX, 18 pp.
Kuehn, D. W., (1983). Characterization of the Organic Structure of the Lower Kittanning Coal Seam Using Fourier Transform Infrared Spectroscopy and Optical Properties. (PhD)
Kuehn, D. W., A. Davis, and P. C. Painter, (1983). Characterization of the Organic Structure of the Lower Kittanning Coal Seam Using Fourier Transform Infrared Spectroscopy and Optical Properties. Penna. State Univ. Rep. DOE-30013-F5 to U.S. Dep. Energy.
Levine, J. R., (1983). Tectonic History of Coal-Bearing Sediments in Eastern Pennsylvania using Coal Reflectance Anisotrophy. (PhD)
Maylotte, D. H., R. L. St. Peters, P. G. Kosky, C. L. Spiro, E. J. Lamby, and A. Davis, (1983). Coal Characterization by X-Ray Computed Tomography, Proc. 1983 International Conference of Coal Science, Internaternational Energy Agency, pp. 659-662.
Mitchell, G. D., and L. G. Benedict, (1983 April 17-20). The Use of Coke Petrography as a Measure of the Behavior and Quality of Coke, Proceedings 42nd Ironmaking Conference, Atlanta, Georgia.
Mitchell, G. D., and L. G. Benedict, (1983 April 17-20). The Use of Coke Petrography as a Measure of the Behavior and Quality of Coke, Proceedings 42nd Ironmaking Conference, Atlanta, Georgia, pp. 347-356.
Moza, A. K., and L. G. Austin, (1983). Analysis of pulverized coal particles (10-100 mu-m) for Fe, S, Ca, Si and Al on a particle-by-particle basis, Fuel, v. 62 (12), pp. 1468-73.
Painter, P. C., M. Starsinic, E. Squires, and A. A. Davis, (1983). Concerning the 1600 cm-1 region in the IR-spectrum of coal, Fuel, v. 62 (6), pp. 742-4.
Radovic, L. R., P. L. Walker, and R. G. Jenkins, (1983). Importance of carbon active-sites in the gasification of coal chars, Fuel, v. 62, (7), pp. 849-56.
Rhoads, C. A., J. T. Senftle, M. M. Coleman, A. Davis, and P. C. Painter, (1983). Further-studies of coal oxidation, Fuel, v. 62 (12), pp. 1387-92.
Russell, S. J., (1983). Petrography and Depositional Environment of the Herrin (No.6) Seam in Central, Eastern and Northwestern Illinois. (PhD)
Snyder, R. W., P. C. Painter, J. R. Havens, and J. L. Koenig, (1983). The determination of hydroxyl-groups in coal by fourier-transform infrared and c-13 NMR-spectroscopy, Applied Spectroscopy, v. 37 (6), pp. 497-502.
Spackman, W., and A. Davis, (1983). Origin, Characteristics and Properties of Pennsylvania Coal, Chapter 1 In Pennsylvania Coal, Pennsylvania Academy of Science, pp. 7-24.
Suhr, N., and H. Gong, (1983). Some Procedures for the Chemical and Mineralogical Analysis of Coal Seams and Macerals. Penna. State Univ. Rep. DOE-30013-F3 to U.S. Dep. Energy.
Walker, P. L., S. Matsumoto, T. Hanzawa, T. Muira, and I. M. K. Ismail, (1983). Catalysis of gasification of coal-derived cokes and chars, Fuel, v. 62 (2), pp. 140-9.
Gerencher, Jr., J. J., (1982). Multivariate Study of the Interrelationships Among Selected Variables of the Organic Fraction of Samples of United States' Coals. (DEd)
Given, P. H., and A. Sood, (1982). Dependence of coal-liquefaction behavior on coal characteristics .6. Product distributions from coals treated in a continuous-flow reactor, Fuel, v. 61 (10), pp. 968-71.
Kuehn, K. W., (1982). The Petrographic Characterization of Coals by Automated Reflectance Microscopy and its Application to the Prediction of Yields in Coal Liquefaction. (PhD)
Lvov, S. N., (1982). Calculation of the standard thermodynamic characteristics for the dissolution of non-polar gases in water at high temperatures and pressures, Russ. J. Phys. Chem., v. 56, pp. 2171-2174.
Lvov, S. N., and V. I. Zarembo, (1982). Calculation of standard values of thermodynamic functions of electrolytes in aqueous solutions at high temperatures and pressures, Russian Journal of Applied Chemistry, v. 55, pp. 2674-2679.
Lvov, S. N., and V. I. Zarembo, (1982). Heat capacity of aqueous ions at elevated state parameters, Geochemistry International, v. 9, pp. 1307-1317.
Lvov, S. N., and V. I. Zarembo, (1982). Infinite dilute partial volumes of electrolytes at elevated state parameters, Geochemistry International, v. 4, pp. 565-573.
Lvov, S. N., and V. I. Zarembo, (1982). Infinite dilute partial volumes of individual ions in aqueous solutions, Geochemistry International, v. 3, pp. 388-399.
Matuzenko, M. U., S. N. Lvov, and V. I. Zarembo, (1982). A model of calculation of standard thermodynamic functions of the multi-atom ions in aqueous solutions at temperature 298-623 K, Geochemistry International, v. 5, pp. 720-725.
Moza, A. K., and L. G. Austin, (1982). Studies on slag deposit formation in pulverized-coal combustors. Preliminary hypothesis for the sticking behavior of slag drops on steels, Fuel, v. 61 (2), pp. 161-5.
Painter, P. C., R. W. Snyder, M. Starsinic, M. M. Coleman, D. W. Kuehn, and A. Davis, (1982). Fourier-transform IR Spectroscopy - Application to the Quantitative-determination of Functional-groups in Coal, ACS Symposium Series, v. 205, pp. 47-76.
Senftle, J. T., and A. Davis, (1982). Relationships between Coal Constitution, Thermoplastic Properties and Liquefaction Behavior of Coals and Vitrinite Concentrates from the Lower Kittanning Seam. Penna. State Univ. Rep. DOE-30013-F1 to U.S. Dep. Energy.
Shadle, L. J., and P. H. Given, (1982). Dependence of coal-liquefaction behavior on coal characteristics .7. Structural differences between coals of different rank and the asphaltenes derived from them, Fuel, v. 61 (10), pp. 972-9.
Szladow, A. J., and P. H. Given, (1982). Analysis of coal dissolution reaction-engineering, Chemical Engineering Communications, v. 19 (1-3), pp. 115-27.
Yamada, Y., R. G. Jenkins, and P. L. Walker, (1982). Carbonization of solvent refined coal, Carbon, v. 20 (2), pp. 148-.
Youtcheff, J. S., and P. H. Given, (1982). Dependence of coal-liquefaction behavior on coal characteristics .8. Aspects of the phenomenology of the liquefaction of some coals. Fuel, v. 61 (10), pp. 980-7.
Davis, A., (1981). Sulfur in Coal: Earth and Mineral Sciences, v. 51, pp. 15.
Friel, J. J., and G. D. Mitchell, (1981 July 13-17). Organic Oxygen and Sulfur Analysis of Various Coal Macerals, Microbeam Analysis Society, Vail, Colorado.
Hower, J. C., and A. Davis, (1981). Application of Vitrinite Reflectance Anisotropy in the Evaluation of Coal Metamorphism. Geological Society of America Bulletin, Pt. 1, v. 92, pp. 350.
Hower, J. C., and A. Davis, (1981). Vitrinite Reflectance Anisotropy as a Tectonic Fabric Element, Geology, v. 9, pp. 165.
Levine, J. R., (1981). Optical Anisotropy of Coals as an indicator of Tectonic Deformation, Broad Top Coal Field, Pennsylvania. (MS)
Lvov, S. N., V. I. Zarembo, and V. N. Gilarov, (1981). Precision studies of the volumetric properties of aqueous sodium chloride solutions at elevated state parameters, Geochemistry International, v. 4, pp. 505-516.
Mehta, S., J. J. Friel, G. D. Mitchell, and J. M. Karpinski, (1981 June 22-24). Development of the Mesophase and Coke-Carbon Forms During Coal Carbonization, Extended Abstracts, 15th Biennial Conference on Carbon, Philadelphia, Pennsylvania.
Miller, D. J., J. K. Olson, and H. H. Schobert, (1981). Mass spectroscopic characterization of tars from the gasification of low-rank coals, Fuel, v. 60, pp. 369-374.
Painter, P. C., R. W. Snyder, M. Starsinic, M. M. Coleman, D. W. Kuehn, and A. Davis, (1981). Concerning the application of FT-IR to the study of coal - a critical-assessment of band assignments and the application of spectral-analysis programs, Applied Spectroscopy, v. 35 (5), pp. 475-85.
Painter, P. C., S. M. Rimmer, R. W. Snyder, and A. Davis, (1981). A Fourier Transform Infrared Study of Mineral Matter in Coal: The Application of a Least Squares Curve-Fitting Program, Applied Spectroscopy, v. 35, pp. 102-106.
Pugmire, R. J., K. W. Zilm, D. M. Grant, S. R. Larter, J. Allen, J. T. Senftle, A. Davis, and W. Spackman, (1981). Carbon-13 CP/MAS Study of Coal Macerals of Varying Rank: In New Approaches in Coal Chemistry (B.D. Blanstein, B.C. Bockrath and S. Friedman, eds.), ACS Symposium Series, v. 169, 23.
Scaroni, A. W., P. L. Walker, and R. G. Jenkins, (1981). Effect of surfaces on the yield of volatiles from coal, Fuel, v. 60 (6), pp. 558-9.