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Lawrence Berkeley Laboratory

G. M. Reistad, paper presented at the Proceedings of the 2nd UN Symposium on the Development and Use of Geothermal Resources, Vol. 1, Lawrence Berkeley Laboratory, San Erancisco, 1975, pp. 2155—2164 "Analysis of the Economic Potential of Solar Thermal Energy to Provide Industrial Process Heat," U.S. ERDN Contract, EY-No-C-02-2829, Intertechnology Corp., 1977. [Pg.274]

In two processes under development as of 1997, the sulfur dioxide stream reacts with reduciag gas over a proprietary catalyst to form elemental sulfur. Both processes have achieved a sulfur recovery of 96% ia a single reactor. Multiple reactor systems are expected to achieve 99+% recovery of the feed sulfur. The direct sulfur recovery process (DSRP), under development at Research Triangle Institute, operates at high temperature and pressure. A similar process being developed at Lawrence Berkeley Laboratory is expected to operate near atmospheric pressure. [Pg.217]

Instrumentation for Environmental Monitoring, rev., Vol. II, Water LBL-1, Technical Information Department, Lawrence Berkeley Laboratory, University of California, Berkeley, Calif., 1980. [Pg.234]

John Newman, Ph.D., Professor of Chemical Engineering, University of California, Berkeley Principle Investigator, Inorganic Materials Research Division, Lawrence Berkeley Laboratory (Section 22, Alternative Separation Processes)... [Pg.14]

The X-Ray Data Booklet. Lawrence Berkeley Laboratory, Berkeley, is an excellent source of information. [Pg.239]

Elements beyond 103 are expected to be 6d elements forming a fourth transition series, and attempts to synthesize them have continued during the past thirty years. All 10 (including, of course, actinium) are now known and are discussed in the section on transactinide elements on p. 1280. The work has required the dedicated commitment of extensive national facilities and has been carried out at the Lawrence-Berkeley Laboratories, the Joint Institute for Nuclear Research at Dubna, and the Heavy-Ion Research Centre (GSI) at Darmstadt, Germany. [Pg.1253]

SOURCE S. M. Berman, et al. (1976). "Electrical Energy Consumption in California Data Collection and Analysis." Lawrence Berkeley Laboratory, UGID 3847 (for 1947-1975 data). Association of Home Appliance Manufacturers (for 1972 and 1978-1995 data). [Pg.77]

Japan Golodnitsky, D. (111 6) Department of Chemistry Tel Aviv University Tel Aviv 69978 Israel Kinoshita, K. (11 8) Energy and Environment Division Lawrence Berkeley Laboratory Berkeley California 94720 USA... [Pg.641]

University of California, Lawrence Berkeley Laboratory and Department of Chemistry, Berkeley, CA 94720... [Pg.9]

Striganov, A. R., Report IAE-2965, Kurchatov Institute of Atomic Energy, Moscow, 1978 (in Russian). Translated by G. V. Shalimoff, Lawrence Berkeley Laboratory. [Pg.199]

KEITH McHENRY Chairman), Amoco Oil Company LESLIE BURRIS, Argonne National Laboratory ELTON J. CAIRNS, Lawrence Berkeley Laboratory NOEL JARRETT, Alcoa Laboratories FREDERIC LEDER, Dowell Schlnmberger JOHN SHINN, Chevron Research Company REUEL SHINNAR, City College of New York PAUL B. WEISZ, University of Peimsylvania... [Pg.6]

Howes, M. A. H., IIT Research Institute Hughes, R., Illinois State Geological Survey Hughes, T. R., Chevron Research Company Hunt, A. J., Lawrence Berkeley Laboratory Irving, J. P., Chevron Oil Field Research Co. Jacques, D., Exxon Chemical Comparer Jefcoat, I. A., University of Alabama Jezl, J. L., Amoco Chemicals Company Jerome, J., Northwestern University... [Pg.212]

Truhlar, D. G. Harvey. N. M. Qnda. K. Brandt. M. A. In Algorithms and Computer Codes for Atomic and Molecular Quantum Scattering Theory. Vol. 1 Lawrence Berkeley Laboratory Berkeley. 1979. p. 220. [Pg.199]

Department of Chemistry, University of California at Berkeley, and Chemical Biodynamics Division, Lawrence Berkeley Laboratory, Berkeley, CA 94720 Centre de Biochimie du Centre National de la Recherche Scientifique, Faculte des Sciences Universite de Nice, Parc Valrose, 06034 Nice Cedex,... [Pg.290]

Brandeis University, 224 Brigham and Women s Hospital, 23,202 Centre National de la Recherche Scientifique, 192,290 Colorado State University, 336 Cornell University, 144 Harvard Medical School, 2,29,202 Institut National de la Sant et de la Recherche Mddicale, 192 Lawrence Berkeley Laboratory, 290 Massachusetts Institute of Technology, 204 Medical College of Georgia, 107 Mitsubishi Kasei Institute of Life Sciences, 133,219 Nagoya University, 232 National Cancer Center Research Institute, 204,224,232 National Institutes of Health, 347 New York Aquarium, 347 New York University, 304,347 The Salk Institute, 256... [Pg.365]

Materiab and Molecular Research Division, Lawrence Berkeley Laboratory,... [Pg.154]

V (2 ), Cr ( ), Zr (1 ), or Ta (1 ). The role of these promoters in the air cathode is unclear, and some have suggested that the active catalysts are alloys of the Ft with the transition metal (1,4) which form during heat-treatment of the oxide impregnated precursor. In the first section of this paper, we review the work from the Lawrence Berkeley Laboratory on the study of the mechanism of promotion of air cathode performance by these transition metal additives. [Pg.576]

Apps, J.A., Current Geochemical Models to Predict the Fate of Hazardous Wastes in the Injection Zones of Deep Disposal Wells, Lawrence Berkeley Laboratory, Report LBL-26007, 1988. [Pg.854]

Apps, J.A., Lucas, J., Mathur, A.K., and Tsao, L., Theoretical and Experimental Evaluation of Waste Transport in Selected Rocks, Lawrence Berkeley Laboratory Report LBL-7022, 1977. [Pg.854]

Illinois Institute of Technology Lawrence Berkeley laboratory and... [Pg.211]

Dr. T. E, Lengas, while a guest scientist at the Lawrence Berkeley Laboratory, contributed suggestions regarding the organization of this chapter. [Pg.279]

The fellowship support provided by the Jane Lewis Fellowship Committee is appreciated. This research was funded in part by a U.S. Department of Energy grant through Lawrence Berkeley Laboratory. [Pg.258]

This work was supported by a Department of Energy Grant DE-AC-76SF00098 to the Lawrence Berkeley Laboratories of the University of California. [Pg.475]

Holten, R. R. Vermeulen, T. Univ. Calif. Lawrence Berkeley Laboratory, 1977, Report LBL-5948. [Pg.241]

Kevlar The Wonder Material. Microworlds Exploring the Structure of Materials, Lawrence Berkeley Laboratory, http //www.lbl.gov/MicroWorlds/Kevlar/... [Pg.94]

Moed, B.A., Nazaroff, W.W., Nero, A.V., Schwehr, M.B., and Van Heuvelen, A., Identifying Areas with Potential for High Indoor Radon Levels Analysis of the National Airborne Radiometric Reconnaissance for California and the Pacific Northwest, Report LBL-16955, Lawrence Berkeley Laboratory, Berkeley CA (1984). [Pg.34]

Sextro, R.G., Understanding the Origin of Radon Indoors--Building a Predictive Capability, Report LBL-20210, Lawrence Berkeley Laboratory, Berkeley CA (1985), submitted to Atmos. Environ. [Pg.35]

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