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020    9781783263295|q(electronic bk.) 
020    |z9781783263271 
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035    (Au-PeEL)EBL1647240 
035    (CaPaEBR)ebr10845307 
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035    (OCoLC)873140202 
040    MiAaPQ|beng|erda|epn|cMiAaPQ|dMiAaPQ 
050  4 TP156.S45 -- S62 2014eb 
082 0  660.2842 
100 1  Smit, Berend 
245 10 Introduction To Carbon Capture And Sequestration 
264  1 Singapore :|bWorld Scientific Publishing Company,|c2003 
264  4 |c©2014 
300    1 online resource (597 pages) 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
490 1  The Berkeley Lectures On Energy ;|vv.1 
505 0  Intro -- Contents -- Preface -- Acknowledgments -- About 
       the Authors -- Chapter 1 Energy and Electricity -- 
       Introduction -- The number of carbon atoms and still 
       counting -- Current CO2 production -- Future CO2 
       production -- Energy and population -- How much CO2 can we
       capture? -- CO2 production of a power plant -- Making 
       dreamiumâ„¢ -- Making electricity -- Case studies: on ideas 
       and reality -- The carbon bicycle -- Kyoto Protocol 
       progress -- Searching for Bigfoot (calculating and 
       comparing carbon footprints) -- A concrete solution to 
       carbon capture -- Paving the way for change -- The 
       professor, the plane, and the Prius -- Review -- 
       References -- Chapter 2 The Atmosphere and Climate 
       Modeling -- Introduction -- The earth with and without an 
       atmosphere -- The atmosphere -- Absorption of radiation by
       the atmosphere -- Water as a greenhouse gas -- Other 
       sources contributing to greenhouse effects -- The climate 
       -- Climate and temperature -- Oceans -- Extreme weather --
       Carbon dioxide -- When the dust has settled -- Climate 
       models -- The physics of the climate -- Climate models -- 
       Climate models: a world without carbon emissions -- Future
       emissions -- Can biology run fast enough? -- The problem 
       of Truth -- Review -- References -- Chapter 3 The Carbon 
       Cycle -- Introduction -- The biological carbon cycle -- 
       Biological cycle: Diurnal cycle -- Biological cycle: 
       Annual cycle -- The role of oceans in the carbon cycle -- 
       Carbon chemistry in the oceans -- Flow in the oceans -- 
       The inorganic carbon cycle -- Faint young sun paradox -- 
       The inorganic carbon cycle -- A box model for the global 
       carbon cycle -- The future carbon cycle -- Climate model 
       predictions -- Paleocene-eocene thermal maximum -- 
       Concluding remarks -- Review -- References -- Chapter 4 
       Introduction to Carbon Capture -- Introduction -- Gas 
       separations -- Minimum energy for separations -- 
       Compression 
505 8  Parasitic energy -- Review -- References -- Chapter 5 
       Absorption -- Introduction -- Absorption design -- 
       Absorption equipment -- Thermodynamics -- Conservation of 
       mass -- McCabe-Thiele diagrams -- Solvent Design -- 
       Introduction -- Water and water+ -- Bases -- Amines -- 
       Enzymes -- Ionic liquids -- Commercial solvents -- Beyond 
       equilibrium thermodynamics -- Diffusion limitation -- 
       Chemical reaction -- Rate limitations -- Additional 
       constraints -- Costs of absorption -- Energy of absorption
       -- Parasitic energy of absorption -- Optimization of an 
       amine scrubber -- Optimizing amine scrubbing -- 
       Irreversibility -- Solvent selection -- Case Study: water 
       versus amines -- Review -- References -- Chapter 6 
       Adsorption -- Introduction -- Adsorption processes -- 
       Fixed bed adsorption -- Fluidized bed adsorption -- 
       Temperature and pressure swing adsorption -- Adsorption 
       design -- Adsorption thermodynamics -- Breakthrough curves
       -- Quantitative analysis of breakthrough curves -- 
       Adsorption costs -- Parasitic energy -- Optimal 
       performance -- Zeolite screening -- Novel materials for 
       carbon capture -- Physisorbents -- Zeolites -- Activated 
       carbon -- Clays -- Chemisorbents -- Metal oxides -- Amines
       on supports -- Metal Organic Frameworks -- Frameworks 
       containing open metal sites -- Interpenetration as a 
       strategy for selective adsorption -- Flexible frameworks -
       - Surface-functionalized frameworks -- Amines versus MOFs 
       -- Review -- References -- Chapter 7 Membranes -- 
       Introduction -- Membrane separation -- Simple membrane -- 
       Permeation and permeability -- Diffusion mechanisms -- 
       Molecular sieving -- Knudsen diffusion -- Diffusion 
       solubility -- Membrane separation -- Separating flue 
       gasses -- Single-stage separation -- Making membranes -- 
       Improving membrane performance -- Separating flue gasses -
       - Microscopic aspects: diffusion -- Which diffusion 
       coefficient? 
505 8  Random walk -- Diffusion in porous media -- Materials: 
       polymers -- Polymer membranes -- Facilitated transport -- 
       Materials: nanoporous materials -- Nanoporous membranes --
       Adsorption -- Diffusion -- Permeability -- "Experimental" 
       nanoporous membranes -- Selecting the best membrane -- The
       status of CO2 capture -- Review -- References -- Chapter 8
       Introduction to Geological Sequestration -- Introduction -
       - The scale of CCS -- Trapping mechanisms -- Selection of 
       geological sites -- Depleted oil and gas reservoirs -- 
       Enhanced oil and gas recovery -- Deep saline aquifers -- 
       Deep unminable coal seams -- Capacity -- Examples of 
       sequestration projects -- Weyburn -- In Salah -- Sleipner 
       -- Summary -- Review -- References -- Chapter 9 Fluids and
       Rocks -- Introduction -- Rocks -- Geology -- Clastic 
       sedimentary rocks -- Geological formations -- Alternative 
       formations -- Porosity -- Fluids -- Deep groundwater 
       environment -- Properties of CO2 -- Solubility of CO2 in 
       groundwater -- Wetting and capillary effects -- Wetting --
       Brine-CO2 interfacial tension -- Caprock -- Mechanism -- 
       Core scale measurements of pc,b -- Fractures and faults --
       Influence of chemical reactions on fracture permeability -
       - Permeability -- Fracture permeability -- Scale-
       dependence of permeability -- Two-phase flow -- Relative 
       permeability -- Hysteresis -- Significance of residual-
       phase trapping -- Chemical reactions -- Mineral weathering
       -- Weathering rate models and data -- Accuracy of data on 
       the weathering rates -- Dissolution at in-situ conditions 
       -- Outlook -- Review -- References -- Chapter 10 Large-
       Scale Geological Carbon Sequestration -- Introduction -- 
       Field-scale models -- Accuracy -- Simulation grid -- 
       Thermodynamics and reaction kinetics within a simulation 
       grid block -- Mass fluxes between simulation grid blocks -
       - Field-scale model assumptions -- Mixing 
505 8  Impact of weathering reactions on permeability -- Organic 
       and biological effects -- Confinement effects -- Reactions
       in adsorbed water films -- Capacity assessment -- Resource
       capacity and reserve capacity -- Storage capacity -- 
       Capacity assessment -- Pyramid representations -- Health, 
       safety, and environmental impacts -- Groundwater quality -
       - Induced seismicity -- Near-surface impacts due to 
       leakage to the atmosphere -- Monitoring of GCS sites -- 
       Subsurface monitoring -- Seismic monitoring -- Remote 
       sensing (InSAR) -- Surface gas flux (eddy-covariance and 
       chamber methods) -- Review -- References -- Chapter 11 
       Land Use and Geo-Engineering -- Introduction -- Land use -
       - Introduction -- Tundras -- Forests -- Peatlands -- 
       Summary -- Geo-engineering: carbon dioxide removal -- 
       Enhanced biomass -- Enhanced weathering -- Direct air 
       capture -- Ocean fertilization -- Ocean up- or downwelling
       -- Geo-engineering: solar radiation management -- CO2 
       utilization -- Outlook -- References -- Chapter 12 List of
       Symbols -- List of symbols -- Chapter 13 Credits -- Cover 
       figure captions -- Glossary -- Answers -- Index 
520    Key Features:The first comprehensive textbook on Carbon 
       Capture and Sequestration (CCS)A comprehensive discussion 
       on the science of CCS and its impact on society and 
       climateA multidisciplinary approach to CCS by the leading 
       US research centers on CCS 
588    Description based on publisher supplied metadata and other
       sources 
590    Electronic reproduction. Ann Arbor, Michigan : ProQuest 
       Ebook Central, 2020. Available via World Wide Web. Access 
       may be limited to ProQuest Ebook Central affiliated 
       libraries 
650  0 Carbon sequestration.;Separation (Technology) 
655  4 Electronic books 
700 1  Reimer, Jeffrey A 
700 1  Oldenburg, Curtis M 
700 1  Bourg, Ian C 
776 08 |iPrint version:|aSmit, Berend|tIntroduction To Carbon 
       Capture And Sequestration|dSingapore : World Scientific 
       Publishing Company,c2003|z9781783263271 
830  4 The Berkeley Lectures On Energy 
856 40 |uhttps://ebookcentral.proquest.com/lib/sinciatw/
       detail.action?docID=1647240|zClick to View