Energy Conversion and Management

The politics of the greenhouse
pp. 643-645(3)
Author: Mitchell J.V.

The IEA Greenhouse gas R&D programme
pp. 647-652(6)
Author: Freund P.

Initiatives to respond to climate change concerns
pp. 653-657(5)
Author: Koch H.J.

Collaboration on technology development - the IEA/OECD technology scoping study
pp. 659-664(6)
Author: Tilley J.

Greenhouse Gas Mitigation Technologies, an Overview of the CO₂ Capture, Storage and Future Activities of the IEA Greenhouse Gas R&D Programme
pp. 665-670(6)
Author: Riemer P.

The impact of fossil generation advances on the emissions of CO₂ in the United States
pp. 671-677(7)
Authors: Armor A.F.; Preston G.T.

Japan's strategy in technology development for mitigating global warming
pp. 679-684(6)
Authors: Kaya Y.; Tamaki M.; Yamagishi K.; Hayashi I.

Greenhouse gas issues and mitigation initiatives in Australia - an overview
pp. 685-692(8)
Authors: Durie R.A.; Schaap H.; Edwards J.H.; Ekstrom A.

Scenarios for greenhouse warming mitigation
pp. 693-698(6)
Author: Sorensen B.

Envirotech investment fund: An Innovative Financial Approach to Greenhouse Gas Reduction
pp. 699-702(4)
Author: Van Den Berg A.J.

New Zealand's unique blend of emissions mitigation and sinks enhancement policies
pp. 703-708(6)
Authors: Hennessy W.; Mills R.; Whitney R.

A simple spreadsheet for the assessment of options for the mitigation of world carbon dioxide emissions
pp. 709-716(8)
Author: Walsh J.H.

The assessment of the long-term prospects of energy technologies in the Netherlands
pp. 717-722(6)
Authors: Van Wees M.; Van Wijk A.

Emissions of greenhouse gases in the Netherlands
pp. 723-728(6)
Author: Evers C.W.A.

Regulation for combined heat and power in the European Union
pp. 729-734(6)
Authors: Hendriks C.; Blok K.

Integrated strategies to reduce greenhouse gas emissions in Germany
pp. 735-740(6)
Authors: Molt S.; Schaumann P.; Laege E.; Fahl U.; Voss A.

Greenhouse gas mitigation: policy options
pp. 741-746(6)
Author: Lowe I.

Global warming mitigation strategies
pp. 747-750(4)
Authors: Alpert S.B.; Maulbetsch J.

Targets for mitigation of greenhouse gases - Implications from a long-term perspective
pp. 751-756(6)
Author: Ruijgrok W.

Strategies for reducing carbon emissions on the tropical rain forest: the case of the Brazilian Amazon
pp. 757-762(6)
Authors: de Freitas M.A.V.; Rosa L.P.

Greenhouse warming versus aerosol cooling in the context of global climate change
pp. 763-768(6)
Author: Kondratyev K.Y.

Measurements of regional CH₄ emissions in the UK using boundary layer budget methods
pp. 769-775(7)
Authors: Fowler D.; Hargreaves K.J.; Choularton T.W.; Gallagher M.W.; Simpson T.; Kaye A.

Ikarus - a fundamental concept for national GHg-mitigation strategies
pp. 777-782(6)
Authors: Markewitz P.; Kuckshinrichs W.; Martinsen D.; Hake J.-F.

Greenhouse gas emission inventories in Europe - CORINAIR 90 and 94
pp. 783-788(6)
Author: Fontelle J.-P.

Global coalbed methane recovery and use
pp. 789-794(6)
Authors: Thakur P.C.; Little H.G.; Karis W.G.

Technologies recovering and utilizing coal seam gas in Japan
pp. 795-800(6)
Authors: Shimada S.; Ohga K.; Deguchi G.

Reducing long term methane emissions resulting from coal mining
pp. 801-806(6)
Authors: Jackson P.; Kershaw S.

An integrated approach to coal measure methane estimation, recovery and utilisation
pp. 807-812(6)
Authors: Brenkley D.; Bennett S.C.

Full fuel cycle carbon balances of bioenergy and forestry options
pp. 813-818(6)
Authors: Schlamadinger B.; Marland G.

Assessment of the costs of global warming on a full fuel cycle basis
pp. 819-824(6)
Authors: Holland M.R.; Eyre N.J.; Downing T.E.

Uncertainty in full fuel cycle costs
pp. 825-830(6)
Author: Hope C.

Using life-cycle assessments for the environmental evaluation of greenhouse gas mitigation options
pp. 831-836(6)
Authors: Nieuwlaar E.; Alsema E.; Van Engelenburg B.

IEA Greenhouse Gas R&D Programme: Full Fuel Cycle Studies
pp. 837-842(6)
Author: Audus H.

The carnol process for CO₂ mitigation from power plants and the transportation sector
pp. 843-848(6)
Author: Steinberg M.

The Australian cooperative research centre for black coal utilisation - potential for reduced greenhouse gas emissions through improved efficiencies
pp. 849-854(6)
Author: Alfredson P.G.

Pressurized fluidized bed gasification of coal using flue gas recirculation and oxygen injection
pp. 855-860(6)
Authors: Andries J.; Becht J.G.M.

Gasification and pyrolysis - routes to competitive electricity production from biomass in the UK
pp. 861-866(6)
Author: Barker S.N.

Stack downward - Zero Emission Fuel-Fired Power Plants Concept
pp. 867-877(11)
Author: Yantovski E.I.

Truckstop electrification: reducing CO₂ emissions from mobile sources while they are stationary
pp. 879-884(6)
Author: Van den Berg A.J.

Hydroelectricity, an option to reduce greenhouse gas emissions from thermal power plants
pp. 885-890(6)
Authors: Levesque S.; Chamberland A.

Nuclear energy: an option to keep open?
pp. 891-896(6)
Authors: Maden C.; Mole T.

Status and future of advanced PF power plants
pp. 897-902(6)
Author: Kjaer S.

Power plants with CO₂ capture using integrated air separation and flue gas recycling
pp. 903-908(6)
Authors: Shao Y.; Golomb D.

Mitigation of greenhouse gases from gas turbine power plants
pp. 909-914(6)
Authors: Rao A.D.; Day W.H.

Financial implications on power generation costs resulting from the parasitic effect of CO₂ capture using liquid scrubbing technology from power station flue gases
pp. 915-921(7)
Author: Leci C.L.

Romanian researches for CO₂ recovery
pp. 923-928(6)
Authors: Dragos L.; Nada O.; Flueraru C.; Scarlat N.

Technology for removing carbon dioxide from power plant flue gas by the physical adsorption method
pp. 929-933(5)
Authors: Ishibashi M.; Ota H.; Akutsu N.; Umeda S.; Tajika M.; Izumi J.; Yasutake A.; Kabata T.; Kageyama Y.

Research and development activities on high efficiency separation process technologies for carbon dioxide removal from industrial sources at University of Regina, Canada
pp. 935-940(6)
Author: Tontiwachwuthikul P.

A decision support system for solvent selection of CO₂ separation processes
pp. 941-946(6)
Authors: Chan C.W.; Tontiwachwuthikul P.

Passive CO₂ removal using a carbon fiber composite molecular sieve
pp. 947-954(8)
Authors: Burchell T.D.; Judkins R.R.

The embodiment of carbon associated with Brazilian imports and exports
pp. 955-960(6)
Authors: Schaeffer R.; De Sa A.L.

Mitigation strategies for greenhouse gases in Austria
pp. 961-966(6)
Author: Hackl A.E.

Electric Technologies and CO₂: Problem or Solution
pp. 967-971(5)
Author: Chwalowski M.

The cost of cutting carbon emissions -- a case study of Western Europe
pp. 973-978(6)
Authors: Krause F.; Koomey J.

An input-output analysis of carbon dioxide emissions for the UK
pp. 979-984(6)
Author: Hetherington R.

Dutch abiogenic emissions of methane and nitrous oxide and options for emission reduction
pp. 985-989(5)
Author: Oonk H.

Strategic Planning and Adoption of Greenhouse Gas Mitigation Options in Asia
pp. 991-998(8)
Author: Bando A.

Environmental impacts of ocean disposal of CO₂
pp. 999-1005(7)
Authors: Herzog H.J.; Adams E.E.; Auerbach D.; Caulfield J.

Effects of circulation and mixing on the disposal of CO₂ in the North Pacific
pp. 1007-1012(6)
Authors: Wong C.S.; Matear R.J.

Calculating the consequences of a CO₂-pipeline rupture
pp. 1013-1018(6)
Authors: Kruse H.; Tekiela M.

Effects of CO₂ on the ocean environment
pp. 1019-1022(4)
Authors: Haugan P.M.; Drange H.

Effectiveness of Ocean Intermediate Depth Injection (Part 2)
pp. 1023-1028(6)
Authors: Nakashiki N.; Tsumune D.; Hikita T.

Solubility of CO₂ in the ocean and its effect on CO₂ dissolution
pp. 1029-1038(10)
Authors: Teng H.; Masutani S.M.; Kinoshita C.M.; Nihous G.C.

Preliminary assessment of the potential coupling between atmospheric temperature and CO₂ concentration via ocean water overturning
pp. 1039-1048(10)
Authors: Nihous G.C.; Masutani S.M.; Vega L.A.; Kinoshita C.M.

Enhanced Carbon Dioxide Uptake by the World's Oceans
pp. 1049-1052(4)
Author: Jones I.S.F.

Conceptual design of an integrated solid CO₂ penetrator marine disposal system
pp. 1053-1060(8)
Authors: Guevel P.; Fruman D.H.; Murray N.

CO₂ capture and disposal: the realism of large scale scenarios
pp. 1061-1066(6)
Authors: Haugen H.A.; Eide L.I.

Permanent storage of carbon dioxide in the marine environment: the solid CO₂ penetrator
pp. 1067-1072(6)
Authors: Murray C.N.; Visintini L.; Bidoglio G.; Henry B.

Transport phenomena of liquid CO₂ in pressurized water flow with clathrate-hydrate at the interface
pp. 1073-1078(6)
Authors: Hirai S.; Okazaki K.; Araki N.; Yazawa H.; Ito H.; Hijikata K.

Effectiveness of CO₂ sequestration in the post-industrial ocean
pp. 1079-1086(8)
Authors: Bacastow R.B.; Dewey R.K.

Study for the stability of CO₂ clathrate-hydrate using molecular dynamics simulation
pp. 1087-1092(6)
Authors: Hirai S.; Okazaki K.; Kuraoka S.; Kawamura K.

Mitigation of methane emissions at landfill sites in New England, USA
pp. 1093-1098(6)
Authors: Mosher B.W.; Czepiel P.C.; Shorter J.; Allwine E.; Harriss R.C.; Kolb C.; Lamb B.

Estimating landfill methane emissions
pp. 1099-1104(6)
Author: Meadows M.

Role of energy production in the control of greenhouse gas emissions from waste management
pp. 1105-1110(6)
Authors: Pipatti R.; Savolainen I.

Methane generation from UK landfill sites and its use as an energy resource
pp. 1111-1116(6)
Author: Aitchison E.

The greenhouse gas consequences of waste management - identifying preferred options
pp. 1117-1122(6)
Author: Aumonier S.

Natural occurrences as analogues for the geological disposal of carbon dioxide
pp. 1123-1128(6)
Authors: Pearce J.M.; Holloway S.; Wacker H.; Nelis M.K.; Rochelle C.; Bateman K.

New feasibility study of carbon dioxide production from coal-fired power plants for enhanced oil recovery: a Canadian perspective
pp. 1129-1134(6)
Authors: Tontiwachwuthikul P.; Chan C.W.; Kritpiphat W.; Skoropad D.; Gelowitz D.; Aroonwilas A.; Jordan C.; Mourits F.; Wilson M.; Ward L.

Technical and economic feasibility of CO₂ disposal in aquifers within the Alberta sedimentary basin, Canada
pp. 1135-1142(8)
Authors: Gunter W.D.; Bachu S.; Law D.H.-S.; Marwaha V.; Drysdale D.L.; MacDonald D.E.; McCann T.J.

Carbon dioxide utilization in aquifer: method for mitigation greenhouse effect
pp. 1143-1148(6)
Authors: Kelebeev A.S.; Akinfiev N.N.; Shvets V.M.

Computer modelling of underground CO₂ storage
pp. 1155-1160(6)
Author: van der Meer L.G.H.

The Linde structure, Denmark an example of a CO₂ - depository with a secondary chalk cap rock
pp. 1161-1166(6)
Authors: Ipsen K.H.; Jacobsen F.L.

Hydrogeological and numerical analysis of CO₂ disposal in deep aquifers in the Alberta sedimentary basin
pp. 1167-1174(8)
Authors: Law D.H.-S.; Bachu S.

Issues and options for reducing methane emission to the atmosphere from Indian coal mining
pp. 1175-1179(5)
Authors: Banerjee B.D.; Dhar B.B.

Cost-effectiveness of emission-reducing measures for methane in the Netherlands
pp. 1181-1186(6)
Authors: De Jager D.; Blok K.

Strategies for limiting methane gas in the European union
pp. 1187-1192(6)
Author: Oudart B.

Isotopic tracing of methane in water and exchange with the atmosphere
pp. 1193-1198(6)
Authors: Faber E.; Berner U.; Gerling P.; Hollerbach A.; Stahl W.J.; Schroder H.G.

Assessment of CO₂ reduction by technological usage of terrestrial ecosystems - reforestation and biomass energy -
pp. 1199-1204(6)
Authors: Goto N.; Yanagisawa Y.

Independent power plant using wood waste
pp. 1205-1209(5)
Authors: Cleland J.G.; Purvis C.R.

Substituting fossil fuels with biomass
pp. 1211-1216(6)
Authors: Gustavsson L.; Svenningsson P.

Energy consumption and greenhouse gas emissions from biomass production chains
pp. 1217-1221(5)
Author: Wihersaari M.

Evaluation criteria for carbon dioxide mitigating projects in forestry and agriculture
pp. 1223-1228(6)
Authors: Bohlin F.; Eriksson L.O.

Re-use and fixation of CO₂ in chemistry, algal biomass and fuel substitutions in the traffic sector
pp. 1229-1234(6)
Author: Braun A.R.

Emissions of CO₂ from biomass production and transportation in agriculture and forestry
pp. 1235-1240(6)
Author: Borjesson P.I.I.

Coal fuel cycle externalities estimates - (Part of the U.S. Initiative of the U.S. DOE/CEC Study)
pp. 1241-1246(6)
Author: Saroff L.

Life cycle analysis of solar cell systems as a means to reduce atomospheric carbon dioxide emissions
pp. 1247-1252(6)
Authors: Komiyama H.; Yamada K.; Inaba A.; Kato K.

Model analyses for sustainable energy supply taking resource and environmental constraints into consideration
pp. 1253-1258(6)
Authors: Matsuhashi R.; Hikita K.; Ishitani H.

Critical Questions about the Full Fuel Cycle Analysis
pp. 1259-1263(5)
Author: Chwalowski M.

A simple model of carbon cycle for upgrading global fossil fuels consumption and carbon emission forecasts validity
pp. 1265-1270(6)
Authors: Demirchian K.S.; Demirchian K.K.

N₂O formation during coal combustion in fluidised beds - is it controlled by homogeneuous or heterogeneous reactions?
pp. 1271-1278(8)
Authors: Boavida D.; Lobo L.S.; Gulyurtlu I.; Cabrita I.

Long-term measurements of N₂O emissions
pp. 1279-1284(6)
Authors: Vermoesen A.; Van Cleemput O.; Hofman G.

Reduction of N₂O emissions from circulating fluidized bed combustors by injection of fuel gases and changing of coal feed point
pp. 1285-1290(6)
Authors: Suzuki Y.; Moritomi H.; Tanaka H.

Thermophysical properties of greenhouse gases thermal conductivity and dynamic viscosity as function of temperature and pressure
pp. 1291-1296(6)
Authors: Latini G.; Passerini G.; Polonara F.

Methods for reducing the emission of nitrous oxide from fluidized bed combustion
pp. 1297-1302(6)
Authors: Lyngfelt A.; &unknown;9mand L.-E.; Gustavsson L.; Leckner B.

Estimates of nitrous oxide emissions from soil in the UK
pp. 1303-1308(6)
Authors: Skiba U.; McTaggart I.P.; Smith K.A.; Hargreaves K.J.; Fowler D.

Nitrous oxide emissions in Austria
pp. 1309-1314(6)
Authors: Orthofer R.; Knoflacher H.M.; Zueger J.

Coal gasification by the coal/CH₄-ZnO-Zn-H₂O solar energy conversion system
pp. 1315-1320(6)
Authors: Tsuji M.; Wada Y.; Tamaura Y.; Steinfeld A.; Kuhn P.; Palumbo R.

Photosynthetic CO₂ conversion technologies using a photobioreactor incorporating microalgae - energy and material balances -
pp. 1321-1326(6)
Authors: Watanabe Y.; Hall D.O.

CH₄-utilization and CO₂-mitigation in the metallurgical industry via solar thermochemistry
pp. 1327-1332(6)
Authors: Steinfeld A.; Kuhn P.; Tamaura Y.

Integrated carbon recycling system for mitigation of CO₂ emissions utilizing degraded thermal energy
pp. 1333-1338(6)
Authors: Hasegawa N.; Yoshida T.; Tsuji M.; Tamaura Y.

The use of solar-based CO₂CH₄ reforming for reducing greenhouse gas emissions during the generation of electricity and process heat
pp. 1339-1344(6)
Authors: Edwards J.H.; Do K.T.; Maitra A.M.; Schuck S.; Fok W.; Stein W.

Mitigation of CO₂ greenhouse effect. Combined disposal and utilisation by photocatalysis.
pp. 1345-1350(6)
Author: Malati M.A.

Methanol from atmospheric carbon dioxide: a liquid zero emission fuel for the future
pp. 1351-1356(6)
Authors: Weimer T.; Schaber K.; Specht M.; Bandi A.

CH₄-CO₂ reforming anti-carbon deposition catalyst
pp. 1357-1361(5)
Authors: Chang-you W.; Shu-ying L.; Xue-ren Y.; Jie R.; Yang-guang C.

Uptake of carbon dioxide from flue gas by microalgae
pp. 1363-1367(5)
Author: Brown L.M.