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Atmospheric aerosols. --- Aerosols --- Atmospheric chemistry
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Atmosphere --- Atmospheric chemistry --- Meteorology --- Satellite meteorology --- Research --- Remote sensing --- United States. --- Management
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Airships. --- Radioisotope heat sources. --- Stirling engines. --- Pressure vessels. --- Cooling systems. --- Atmospheric chemistry.
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Atmosphere --- Atmospheric chemistry --- Meteorology --- Satellite meteorology --- Research --- Research --- Remote sensing --- Research --- United States. --- Research --- Management
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Atmospheric circulation --- Atmospheric chemistry --- Hydrologic cycle --- Water chemistry --- Geochemistry --- Circulation atmosphérique --- Chimie de l'atmosphère --- Cycle hydrologique --- Eau --- Géochimie --- Chimie --- Atmospheric circulation. --- Atmospheric chemistry. --- Hydrologic cycle. --- Water chemistry. --- Geochemistry.
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Radon --- Atmospheric radon --- Air --- Atmospheric chemistry --- Atmospheric radioactivity --- Emanation (Radioactive substances) --- Emanon --- Niton --- Radium emanation --- Gases, Rare --- Radioactive substances --- Radon content
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Atmospheric carbon dioxide --- Fossil fuels --- Greenhouse gases --- GHGs (Greenhouse gases) --- Heat-trapping gases --- Gases --- Fossil energy --- Fuel --- Energy minerals --- Air --- Atmospheric chemistry --- Carbon dioxide --- Environmental aspects --- Combustion --- Carbon dioxide content
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This companion provides a collection of frequently needed numerical data as a convenient desk-top or pocket reference for atmospheric scientists as well as a concise source of information for others interested in this matter. The material contained in this book was extracted from the recent and the past scientific literature; it covers essentially all aspects of atmospheric chemistry. The data are presented primarily in the form of annotated tables while any explanatory text is kept to a minimum. In this condensed form of presentation, the volume may serve also as a supplement to many textbooks used in teaching the subject at various universities.
Atmospheric chemistry. --- Geography. --- Meteorology. --- Thermodynamics. --- Earth & Environmental Sciences --- Meteorology & Climatology --- Earth sciences. --- Atmospheric sciences. --- Air pollution. --- Earth Sciences. --- Atmospheric Sciences. --- Atmospheric Protection/Air Quality Control/Air Pollution. --- Chemistry, Physical and theoretical --- Atmospheric science --- Environmental protection. --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Environmental quality management --- Protection of environment --- Environmental sciences --- Applied ecology --- Environmental engineering --- Environmental policy --- Environmental quality --- Atmospheric sciences --- Earth sciences --- Atmosphere --- Air --- Air contaminants --- Air pollutants --- Air pollution --- Air pollution control --- Air toxics --- Airborne pollutants --- Contaminants, Air --- Control of air pollution --- Pollutants, Air --- Toxics, Air --- Pollution --- Air quality --- Atmospheric deposition --- Control
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There have been numerous computer-based simulation studies carried out on the subject of CO2 geo-sequestration. However, the amount of experimental data available in the literature on this topic, especially with regards to multiphase flow characteristics of fluid-rock systems during such processes, is very limited. This research was carried out with the aim of providing a better understanding of the multiphase fluid flow characteristics of fluid-rock systems during the geo-sequestration process. The ultimate goal of this research was to experimentally evaluate the change in a number of multiphase flow characteristics of the system over time caused by the potential chemical and physical/mechanical processes occurring during deep CO2 disposal. In order to achieve this goal the effects of cyclic/alternating CO2-brine flooding, flow direction, existence of residual hydrocarbon (natural gas) and change in the reservoir stress field on the system’s multiphase flow behaviour were investigated. Until completion of this study there were no experimental data published in the literature addressing the above mentioned issues and the results obtained, and published within this thesis were the first of their kind. .
Multiphase flow. --- Porous materials --- Multiphase flow --- Physics --- Geology --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Earth & Environmental Sciences --- Materials Science --- Dynamic & Structural Geology --- Atomic Physics --- Fluid dynamics --- Geological carbon sequestration. --- Carbon sequestration --- Atmospheric carbon dioxide --- Carbon dioxide mitigation. --- Technological innovations. --- Storage --- Atmospheric carbon dioxide mitigation --- Carbon dioxide capture --- Mitigation of carbon dioxide --- Air --- Carbon capture and storage --- Carbon dioxide sequestration --- CCS (Carbon sequestration) --- Carbon dioxide --- Geo-sequestration of carbon dioxide --- Geological carbon dioxide sequestration --- Geological sequestration of carbon dioxide --- Geological storage of carbon dioxide --- Carbon dioxide content --- Geological sequestration --- Geological storage --- Earth sciences. --- Geochemistry. --- Geology. --- Fluids. --- Earth Sciences. --- Fluid- and Aerodynamics. --- Hydraulics --- Mechanics --- Hydrostatics --- Permeability --- Geognosy --- Geoscience --- Earth sciences --- Natural history --- Chemical composition of the earth --- Chemical geology --- Geological chemistry --- Geology, Chemical --- Chemistry --- Geosciences --- Environmental sciences --- Physical sciences --- Pollution prevention --- Atmospheric chemistry --- Sequestration (Chemistry)
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The new revised edition of a classic Earth science textThis newly revised edition of Global Environment discusses the major elements of the geochemical cycles and global fluxes found in the atmosphere, land, lakes, rivers, biota, and oceans, as well as the human effects on these fluxes. Retaining the strengths of the original edition while incorporating the latest discoveries, this textbook takes an integrated, multidisciplinary, and global approach to geochemistry and environmental problems and introduces fundamental concepts of meteorology, surficial geology (weathering, erosion, and sedimentation), biogeochemistry, limnology, and oceanography.New concepts and information in this updated edition include changes of atmospheric carbon dioxide over geologic time, major advances in the study of chemical weathering of rocks, ocean acidification, and important environmental problems, such as the amelioration of the acid rain problem due to reduction in sulfur deposition, problems with nitrification of soils and lakes, and eutrophication of rivers and estuaries. An expanded chapter explores atmospheric chemistry and changing climate, with the most up-to-date statistics on CO2, the carbon cycle, other greenhouse gases, and the ozone hole. Only requiring a fundamental understanding in elementary chemistry, yet taking into account extensive and current data, this text is ideal for students in environmental geochemistry, environmental geology, global change, biogeochemistry, water pollution, geochemical cycles, chemical oceanography, and geohydrology, and serves as a valuable reference for researchers working on global geochemical and environmental issues.Revised edition takes a close look at global fluxes involving the atmosphere, land, lakes, rivers, biota, and oceans, and the human effects on these fluxesDetailed discussion of basic concepts including meteorology, surficial geology (weathering, erosion, and sedimentation), biogeochemistry, limnology, and oceanographyAn expanded up-to-date chapter on atmospheric chemistry and changing climate, including CO2, other greenhouse gases, and ozonePresentation of major advances in the study of chemical weatheringDiscussion of current environmental topicsGlobal coverage of environmental problems involving water
Atmospheric circulation. --- Atmospheric chemistry. --- Hydrologic cycle. --- Acid rain. --- Aerosol. --- Aluminosilicate. --- Ammonium. --- Atlantic Ocean. --- Atmosphere of Earth. --- Bicarbonate. --- Biogeochemical cycle. --- Biomass (ecology). --- Biomass. --- Calcite. --- Calcium. --- Carbon dioxide. --- Carbonate. --- Carbonic acid. --- Chemical composition. --- Chemical reaction. --- Climate change. --- Combustion. --- Cyanobacteria. --- Deep sea. --- Deforestation. --- Denitrification. --- Denudation. --- Diatom. --- Dissolved silica. --- Drainage basin. --- Earth. --- Erosion. --- Estuaries. --- Estuary. --- Eutrophication. --- Evaporation. --- Evaporite. --- Fertilizer. --- Fossil fuel. --- Fresh water. --- Geochemical cycle. --- Geochemistry. --- Global warming. --- Greenhouse gas. --- Groundwater. --- Hydrology. --- Inflow (meteorology). --- Ion exchange. --- Magnesium. --- Methane. --- Nitrate. --- Nitric acid. --- Nitrification. --- Nitrogen cycle. --- Nitrogen fixation. --- Nitrogen. --- Nitrous oxide. --- Nutrient. --- Ocean acidification. --- Organic acid. --- Organic compound. --- Ozone depletion. --- Ozone layer. --- Pacific Ocean. --- Particulates. --- Pelagic zone. --- Phosphate. --- Phosphorus cycle. --- Phosphorus. --- Photosynthesis. --- Phytoplankton. --- Pollutant. --- Pollution. --- Potassium. --- Precipitation. --- Primary production. --- Pyrite. --- Radiative forcing. --- River. --- Salinity. --- Sea salt. --- Seawater. --- Sediment. --- Sedimentary rock. --- Silicate. --- Sodium. --- Soil water (retention). --- Soil. --- Solubility. --- Sulfate. --- Sulfur dioxide. --- Sulfuric acid. --- Surface runoff. --- Surface water. --- Thermocline. --- Thermohaline circulation. --- Total organic carbon. --- Water cycle. --- Water mass. --- Water vapor. --- Weathering. --- Year.
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