01005nam0-22003251i-450-990001090390403321000109039FED01000109039(Aleph)000109039FED0100010903920000920d1964----km-y0itay50------baengAdvances in X-Ray AnalysisProceedings of the 12th Annual Conference on Application of X-Ray Analysis held August 7-9, 1963Edited by William M. Mueller, Gavin Mallett and Marie FayNew YorkPlenum Press1964ix, 662 p.25 cmAdvances in X-Ray Analysis7CristallografiaRaggi x548Mueller,William M.51888Fay,MarieMallett,GavinITUNINARICAUNIMARCBK99000109039040332137-025.00616209FI1FI1Advances in X-Ray Analysis335865UNINAING0101557nam 2200385Ia 450 991070100070332120111130110933.0(CKB)5470000002413015(OCoLC)764633818(EXLCZ)99547000000241301520111130d2011 ua 0engurcn||||a||||txtrdacontentcrdamediacrrdacarrierRecommendations for enhancing reactor safety in the 21st century[electronic resource] the Near-Term Task Force review of insights from the Fukushima Dai-ichi accident /Charles Miller ... [and others][Rockville, Md.?] :U.S. Nuclear Regulatory Commission,[2011]1 online resource (x, 83 pages) color illustrations, color mapTitle from title screen (viewed on Nov. 30, 2011)."July 12, 2011."Recommendations for enhancing reactor safety in the 21st century Nuclear reactorsUnited StatesSafety measuresNuclear power plantsUnited StatesSafety measuresFukushima Nuclear Disaster, Japan, 2011Nuclear reactorsSafety measures.Nuclear power plantsSafety measures.Fukushima Nuclear Disaster, Japan, 2011.Miller Charles L55992GPOGPOBOOK9910701000703321Recommendations for enhancing reactor safety in the 21st century3438061UNINA05397nam 2200673Ia 450 991100665170332120200520144314.01-281-04720-197866110472070-08-053242-X(CKB)1000000000358288(EBL)313954(OCoLC)190795150(SSID)ssj0000072059(PQKBManifestationID)11123329(PQKBTitleCode)TC0000072059(PQKBWorkID)10090529(PQKB)10076012(MiAaPQ)EBC313954(EXLCZ)99100000000035828820000217d2000 uy 0engur|n|---|||||txtccrGeochemical remote sensing of the sub-surface /edited by M. Hale1st ed.Amsterdam ;New York Elsevier20001 online resource (573 p.)Handbook of exploration geochemistry ;v. 7Description based upon print version of record.0-444-50439-7 Includes bibliographical references (p. 471-511) and indexes.Front Cover; Geochemical Remote Sensing of the Sub-Surface; Copyright Page; Contents; Editor's foreword; Preface; List of contributors; Part I: Genetic Models of Remote Dispersion Patterns; Chapter 1. Genesis, behaviour and detection of gases in the crust; Introduction; The geochemical background; Indicator and pathfinder gases for exploration; Mechanisms of gas migration; Indicator and pathfinder gas data acquisition; Conclusions; Chapter 2. Geoelectrochemistry and stream dispersion; Introduction; Geoelectrochemical prospecting; Geoelectrochemical exploration; Discussion and conclusionsChapter 3. Spontaneous potentials and electrochemical cellsIntroduction; Geochemical transport mechanisms; Voltaic Cells; Spontaneous potential in Earth materials; Spontaneous potential cells; Geochemical response to spontaneous potential cells; Conclusions; Part II: Remote Dispersion Patterns Of Co-Genetic Provenance; Chapter 4. Carbon dioxide dispersion halos around mineral deposits; Introduction; Method; Case histories; Discussion; Conclusions; Chapter 5. Light hydrocarbons for petroleum and gas prospecting; Introduction; Origin of light hydrocarbon gases; HistoryPhysical basis for migration of hydrocarbons to the surfaceHydrocarbon residence sites at surface; Factors influencing near- surface hydrocarbon flux; Sampling and measurement methods; Sampling strategy; Data interpretation; Case histories; Conclusions; Chapter 6. Gas geochemistry surveys for petroleum; Introduction; Theoretical principles; Surface expressions of hydrocarbon migration; Modes of occurrence of gases in microseeps; Practical methods; Case histories; Conclusions; Chapter 7. Aerospace detection of hydrocarbon-induced alteration; IntroductionRemote detection of induced surface manifestationsProblems and future trends; Part III: Remote Dispersion Pattern of Post-Genetic Provenance; Chapter 8. Sulphur gases; Introduction; Chemistry and geochemistry of sulphur gases; Experimental techniques; Case histories; Discussion; Conclusions; Chapter 9. Sulphide anions and compounds; Introduction; Experimental investigations; Field investigations; Discussion; Conclusions; Chapter 10. Helium; Introduction; Occurrence; Sampling; Analysis; Variations of helium concentrations; Helium surveys in mineral explorationHelium surveys in petroleum explorationHelium surveys in geothermal resource exploration; Helium associated with faults; Conclusion; Chapter 11. Radon; Introduction; Physical and chemical properties of radon; Definitions; Geochemistry of radon; Analytical methods; Field methods; Comparison studies and case histories; Future needs; Chapter 12. Mercury; Introduction; Geochemistry of mercury; Behaviour of mercury in the primary environment; Behaviour of mercury in the secondary environment; Sampling media; Recommended analytical procedures; ConclusionsChapter 13. Discrimination of mercury anomaliesThis volume documents the techniques for geochemical remote sensing of the subsurface, to present case-history evidence of their successes and limitations, and to consider their further potential. The chapters in Part I focus on the mechanisms and models of dispersion that give rise to the patterns we attempt to detect. Part II deals with the detection of dispersion patterns that owe their origins to processes, such as leakage, that are allied to resource emplacement. Part III describes the detection of dispersion patterns that are generated by processes, such as radiodecay and oxidation, takiHandbook of exploration geochemistry ;v. 7.PetroleumProspectingGeochemical prospectingGeochemistryRemote sensingPetroleumProspecting.Geochemical prospecting.GeochemistryRemote sensing.551.028622/.1828622.1828Hale M(Martin)1822112MiAaPQMiAaPQMiAaPQBOOK9911006651703321Geochemical remote sensing of the sub-surface4388169UNINA