Bibliography On Biogas

[1] AIChE/CCPS: Daw's chemical exposure index guide; CEP technical manual, American Institute of Chemical Engineers (AIChE), New York, 1994.

[2] AIChE/CCPS: Guidelines for chemical process quantitative risk analysis, Second Edition, American Institute of Chemical Engineers (AIChE), New York, 2000

[3] AIChE/CCPS: Guidelines for chemical transportation risk analysis; American Institute of Chemical Engineers (AIChE), New York, 1995.

[4] AIChE/CCPS: Guidelines for Evaluating the Characteristics of Vapor Cloud Explosions, Flash Fires, and BLEVEs. American Institute of Chemical Engineers (AIChE), New York, 1994.

[5] AIChE/CCPS: Guidelines for hazard evaluation procedures. Second edition with worked examples, American Institute of Chemical Engineers (AIChE), New York, 1992.

[6] AIChE/CCPS: Guidelines for hazard evaluation procedures. Second edition with worked examples. Center for Chemical Process Safety, American Institute of Chemical Engineers (AIChE), New York, 1992.

[7] AIChE/CCPS: Guidelines for Preventing Human Error in Process Safety. American Institute of Chemical Engineers (AIChE), New York, 1994.

[8] AIChE/CCPS: Guidelines for process equipment reliability data with data tables. American Institute of Chemical Engineers (AIChE), New York, 1989

[9] AIChE/CCPS: Guidelines for use of vapor cloud dispersion models, Second Edition, Center for Chemical Process Safety, New York, 1996

[10] AIChE/CCPS: Layer of protection analysis - Simplified process risk assessment. American Institute of Chemical Engineers (AIChE), New York, 2001.

[11] AIChE/CCPS:Guidelines for Engineering Design for Process Safety. American Institute of Chemical Engineers (AIChE), New York, 1993.

[12] Alcock, J.L.: Compilation of existing safety data on hydrogen and comparative fuels. EIHP2 Report, 2001.

[13] Altmann, M., P. Schmidt, R. Wurster, M. Zerta, W. Zittel: Potential for hydrogen as a fuel for transport in the long-term (2020-2030). European Commossion-Joint Research Center, EUR 21090 EN, 2004

[14] Amos, Wade A.: Costs of storing and transporting hydrogen. The National Renewable Energy Laboratory (NREL), U.S. DOE, USA, 1998

[15] Arendt,J.S., D. K. Lorenzo: Evaluating Process Safety in the Chemical Industry. American Institute of Chemical Engineers (AIChE), New York, 2000.

[16] Bain, A., Wm. D. Van Vorst: The Hindenburg tragedy revisited the fatal flaw found. International Journal of Hydrogen Energy, 13, pp. 288-392, Elsevier, 1999.

[17] Bain, A.: Sourcebook for hydrogen applications. Edited by Tapan K. Bose, TISEC, Canada, 1998.

[18] Banda, Z.: Hyrogen trailer storage facility (building 878) consequences analysis. Sandia Report, the Sandia National Laboratories, USA, 1994

[19] Barbir F.: Safety issues of hydrogen in vehicles. Energy Partner 1501 Northpoint Pkwy, West Palm Beach, FL 33407, USA

[20] Barretoa, L., A. Makihira, K. Riahi: The hydrogen economy in the 21st century - a sustainable development scenario. International Journal of Hydrogen Energy, 28, pp. 267 - 284, Elsevier, 2003

[21] Bathasar, W., J.P. Schödel: Hydrogen safety manual. Commission of the European Communities, Energy, Directorate-General for Science, Research and Development, EUR 8396 EN, Brussels, 1983.

[22] Baykara, S.Z.: Hydrogen as fuel - a critical technology? International Journal of Hydrogen Energy, 30, pp. 545 - 553, Elsevier, 2005.

[23] Beeson H., S. Woods: Guide for hydrogen hazards analysis on components and systems. NASA Johnson Space Center Houston, NASA/TM—2003-212059, 2003.

[24] Bernatik, A., M. Libisova: Loss prevention in heavy industry - Risk assessment of large gasholders. Journal of Loss Prevention in the Process Industries, 17, pp. 271278, Elsevier, 2004.

[25] BMFT: Summary report on solar hydrogen energy economy. Ad-hoc Committee -Federal Minister for Research and Technology, Bonn, 1988

[26] BMU: Renewable energies. Innovation for the future, Federal Ministry of the Environment, Nature Conservation and Nuclear Safety, Germany, 2004.

[27] Bockris, J. O'M.: Energy - The solar-hydrogen alternative. John Wiley & Sons, New York-Toronto, 1975.

[28] Bockris, J. O'M.: Hydrogen economy in the future. International Journal of Hydrogen Energy, 24, pp. 1 - 15, Elsevier, 1999.

[29] Bockris, J. O'M.: On hydrogen futures - toward a sustainable energy system. Short communication, Int. Journal of Hydrogen Energy, 28, pp.131 - 133, Elsevier, 2003

[30] Bockris, J. O'M.: The origin of ideas on a hydrogen economy and its solution to the decay of the environment. Int. Journal of Hydrogen Energy, 27, pp. 731 - 740, Elsevier, 2002.

[31] Bossel, U., B. Eliasson: Energy and the hydrogen economy. 2003

[32] Breitung, W., P. Royl: Procedure and tools for deterministic analysis and control of hydrogen behavior in severe accidents. Nuclear Engineering and Design, 202, pp. 249-268, 2000.

[33] Bünger, U.: Brennstoffzellen für die Kraft-Wärme-Kopplung. L-B-Systemetechnik GmbH, Publications, 1999.

[34] Bünger, U.: Current status and perspectives of hydrogen energy related activities in Germany. International Conference on Hydrogen Age of Asia, Tokyo, Japan, 2001.

[35] Bünger, U.: Mobile, stationäre und portable anwendungen von Brenstoffzellen. Haus der Technik e.v, Ottobrunn, Germany, 1999.

[36] Cadwallader, C.J., and J. S. Herring: Safety issues with hydrogen as a vehicle fuel. Idaho National Engineering and Environmental Laboratory, U.S.A, 1999.

[37] Cancelli, C., M. Demichela, N. Piccinini: Release of hydrogen from a cryogenic tank. Cryogenics, 45, Issue 7, pp. 481-488, Elsevier, 2005.

[38] Carol, J.A. Vilchez, J. Casal: Using major hazard database systems to develop event trees for flammable materials, CERTEC, Spain, 1996.

[39] CEC: California hydrogen fueling station guidelines; California Energy Commission (CEC); Prepared By Tiax Llc 1601 De Anza Blvd., Cupertino, Ca 95014, 2003

[40] CEC: Failure modes and effects analysis for hydrogen fueling options. Prepared by TIAX LLC for the California Energy Commission as part of the Energy Commission, Contract 600-01-095, 2004.

[41] Clemens, P.L.: Human factors and operator errors. 2nd Edition, Jacobs Sverdup, 2002. www.sverdup.com/safety/humanfactors.pdf.

[42] Contini, S.: A new hybrid method for fault tree analysis. Reliability Engineering and System Safety, 49, pp. 13-21, Elsevier, 1995.

[43] Cox, R.A. : Accidental of LPG release-discharge, dispersion, ignition, and potential effects on people and buildings. Conference on Risk and Safety Management in the Gas Industry, Hongkong, 1993.

[44] Crabtree, et.al.: Hydrogen economy. http://www.physicstoday.org/vol-57/iss-12/p39. html

[45] Dante, R.C., L.P. Güereca, L.Neri, J.L.Escamilla, L. Aquino, J.Celis: Life cycle analysis of hydrogen fuel - a methodology for a strategic approach of decision making. International Journal of Hydrogen Energy, 27, pp.131 - 133, Elsevier, 2002.

[46] Desert College: Hydrogen fuel cells engines and related technologies; College of the Desert, Palm Desert, USA, 2001.

[47] Dikoes, J. et.al.: Design proposal of hydrogen refueling station. The 1st winner of the NHA and DOE hydrogen contest, University of Victoria, 2004.

[48] DNV: CO2 Sequestration risk assessment. Det Norske Veritas (DNV), UK, 2003

[49] DNV: PHAST Technical Manual. Det Norske Veritas (DNV) Software, UK, 2002

[50] Domashenko,A., Golovchenko, Gorbatsky, Nelidov, Skorodumov: Experience in the design, sizing, economics, and implementation of autonomous wind-powered hydrogen production systems. Int. Journal of Hydrogen Energy, 25, pp.705-722, Elsevier, 2000.

[51] Doyle, T.A.: Technology status of hydrogen road vehicle. IEA agreement on the production and utilization of hydrogen, IEA/H2/TR1-98, Technology Consultant Gavirate (VA), Italy, 1998.

[52] Dunn, S.: Hydrogen futures - toward a sustainable energy system. International Journal of Hydrogen Energy, 27, pp 235-264, Elsevier, 2002.

[53] DWV: H2 Roadmap - AP1 Prinzipielle Anforderungen an die Infrastruktur. Studie der DWV, Deutscher Wasserstoff-verband e.V, Berlin. 2003

[54] DWV: Wasserstoff- Der neue Energieträger. Deutscher Wasserstoff-verband e.V, Berlin. 2004

[55] DWV: Wasserstoff- Der neue Energieträger. Eine Einführung, Deutscher Wasserstoff-verband e.V, Berlin. 2003

[56] Edeskuty, F.J. and W. F. Stewart: Safety in the handling of cryogenic fluids. Plenum Press, NY and London, 1996

[57] EIGA: 300 bar high strength seamless steel gas cylinders. IGC Doc 124/04/E, European Industrial Gas Association, Brussels, 2004

[58] EIGA: Determination of safety distance. IGC Doc 75/01/E/rev, European Industrial Gas Association, Brussels, 2002

[59] EIGA: Safety in storage, handling and distribution of liquid hydrogen. IGC Doc 06/027E, European Industrial gas association, Brussels, 2002

[60] EIHP: Consequence analysis scenarios. European Integrated Hydrogen Project, Volvo safety study, www.eihp.org/eihp1/workshop/partners/revwbmw, 1999.

[61] EIHP: European Integrated Hydrogen Project.. The European Commission in the framework of the Non Nuclear Energy Programme Joule III, 2000

[62] EIHP2: Hydrogen vehicles and infrastructure in view of European licensing. European Integrated Hydrogen Project - Phase II (EIHP2), Publishable-36 Month Technical Report, Messer Griesheim GmbH, Germany, 2004

[63] Eisenbeiß, Gerd: Hydrogen. The 10th anniversary of the "Real Academia de Ingenieria", Madrid, 2003

[64] El kebir, O.A., A. Szummer: Comparison of hydrogen embrittlement of stainless steels and nickel-base alloys. International Journal of Hydrogen Energy, 27, pp.793 -800, Elsevier, 2002.

[65] Eliasson, B., U. Bossel: The Future of the Hydrogen Economy: Bright or Bleak? ABB Switzerland Ltd, and Fuel Cell Consultant, Switzerland

[66] European Office: Safety issues regarding fuel cell vehicles and hydrogen fuelled vehicles. The International Consorcium for Fire Safety, Health, and the Environment, Sweden.

[67] Felix, C. M.: Technological development of new energy in Germany. 2001

[68] Fernandes, T.R.C., Fengzhen Chen, M. D. G. Carvalho: "HySociety" in support of European hydrogen projects and EC policy. International Journal of Hydrogen Energy, 30, pp. 239 - 245, Elsevier, 2005.

[69] Fisher: Control valve handbook. The third edition, Fisher Controls International, inc., USA, 2001.

[70] Fisher: LP-Gas Serviceman's Handbook. Fisher-Rosemount. Fisher Controls, USA, 1998.

[71] Frantzich, H.: Uncertainty and risk analysis in fire safety engineering (dissertation). Lund University; Sweden Institute of Technology; Lund, Sweden, 1998

[72] Fretz, J.: Direct communication. Study visit to the Linde Gas AG, Leuna Hydrogen Plant, Germany, 2005.

[73] Fuelcells: Lists of the world wide hydrogen fuelling stations. www.fuelcells.org/info/ charts/h2fuelingstations.pdf

[74] Garrity, L.: The hydrogen economy. State sustainability strategy background paper, Institute for Sustainability and Technology Policy, Murdoch University, Australia, 2004

[75] George E. DeVaull, J. A. King, R. J. Lantzy, D. J. Fontaine: Understanding Atmospheric Dispersion of Accidental Releases. American Institute of Chemical Engineers (AIChE), New York, 1995.

[76] Goltsova, V.A., T. N. Veziroglu: From hydrogen economy to hydrogen civilization. International Journal of Hydrogen Energy, 26, pp. 909-915, Elsevier, 2001

[77] Gottesfeld: Fuel cells - green power. www.educationlanl. gov/resources/fuelcells

[78] Gross, R., W. Otto, A. Patzeit, M. Wanner: Liquid hydrogen for Europe - the Linde plant at Ingolstadt. Report on Science and Technology, Linde AG, 54, pp.3743, 1994

[79] Gruber, H. and O. Weinmann: LH2-fueled cogeneration unit with fuel cells. Hamburgische Electricitäts-Werke AG, Germany.

[80] Hanna, Steven R. & Rex E. Britter: Wind flow and vapor cloud dispersion at industrial and urban sites. American Institute of Chemical Engineers, New York, 2002

[81] Harris, S. J.E. Arrenger, V.M. Trbojeric, R.A.Cox: Comparison of LPG-related regulations. Joint Research Center, Commision of the European Communities, EUR 13699 EN, 1991.

[82] Harris: Hydrogen Economy. http://www.aacg.bham.ac.uk/hydrogen/hydrogen_ economy.htm

[83] Haugom, G.P., H. Riskheim, S. Nilsen: Hydrogen applications - risk acceptance criteria and risk assessment methodology. European Integrated Hydrogen Project -Phase 2 (EIHP2), 2003

[84] Hauptmanns, U.: A risk-based approach to land-use planning. Journal of Hazardous Material, A125, pp. 1-9, Elsevier, 2005

[85] Hauptmanns, U.: Analytical propagation of uncertainties through fault trees. Reliability Engineering And System Safety, 76, pp 327-329, Elsevier, 2002.

[86] Hauptmanns, U.: Fault tree analysis for process plants. Engineering Risk and Hazards Assessment, vol. 1, pp 21-58, CRC Press, 1988.

[87] Hauptmanns, U.: Plant safety analysis using quantitative and semi-quantitative methods a comparison. O-v-G-Universitat, Magdeburg, Germany.

[88] Hauptmanns, U.: Reliability data. Otto-von-Guerucke-University Magdeburg, Germany.

[89] Hijikata, T.: Research and development of international clean energy network using hydrogen energy. Int. Journal of Hydrogen Energy, 27, pp. 115-129, Elsevier, 2002.

[90] HLG: Euro vision for hydrogen energy and fuel cells. Fuel Cells bulletin, High Level Group (HLG) on hydrogen & fuel cells, 2003.

[91] Horstmann, A.: Hydrogen-Sustainable energy for transport and energy utility markets. NRW State Initiative of Future Energies, Germany, 2004.

[92] HSC: Major hazard aspects of the transport of dangerous substance. Health and Safety Executive, London, 1991.

[93] HSE: Canvey -A second report. Health and Safety Executive, London, 1978, 1981.

[94] HSE: Consequence. Health and Safety Executive, http://www.hse. gov.uk/offshore/ strategy/consequence.htm

[95] HyNet: Hydrogen regulations, codes and standards. On the way towards a European hydrogen energy roadmap data source book, L-B-Systemtechnik GmbH, Germany

[96] IAEA: Hydrogen as an energy carrier and its production by nuclear power. International Atomic Energy Agency, IAEA-TECDOC-1085, IAEA, Austria, 1999

[97] IPTS: Potential for hydrogen as a fuel for transport in the long term (2020 - 2030). IPTS-EC, 2004

[98] ISO TC 197 N 196: Draft Bussiness Plant of ISO/TC 197 - Hydrogen technologies. 2001

[99] ISO TC 197/SC N: Basic considerations for the safety of hydrogen systems. ISO/PDTR 15916, ISO 2001.

[100] Janssen, H., J.C. Bringmanns, B. Emonts, V. Schroeder: Safety-related studies on hydrogen production in high-pressure electrolyzer. Int. Journal of hydrogen energy, 29, pp. 759-770, Elsevier, 2004

[101] Jeffries, R.M., S.J. Hunt and L. Gould: Deviation of fatality probability function for occupant buildings subjects to blast loads. Ws Atkins Science & Technology -HSE; 1st Edition, Norwich, 1997.

[102] Jo, Jan Kie: Risk assessment for the energetic use of hydrogen. Master Thesis, Process and System Engineering, Otto-von-Guericke-University of Magdeburg, Germany, 2001

[103] Joel M., A. Pham, S. M. Aceves: A natural gas-assisted steam electrolyzer for high-efficiency production of hydrogen. International Journal of Hydrogen Energy, Article in press, Pegamon, 2002.

[104] Joel M., A. Pham, S. M. Aceves: Affordable hydrogen supply pathway for fuel cell vehicles. International Journal of Hydrogen Energy, Article in press, Pegamon, 2002.

[105] Ketchell, N., R. Robinson, P.Genoud: Quantification and comparison of the risks of LNG storage concepts-membrane and full containment. 3 Rue Stephenson, Montigny-le-bretonneux, 78884 Saint-Quentin-Yvelines Cedex, France.

[106] Khan, F. I., S.A. Abbasi: An assessment of the likelihood of occurrence, and the damage potential of domino effect in a typical cluster of industries. Journal of Loss Prevention in the Process Industries, 14, pp.283-306, Elsevier, 2001.

[107] Khan, F. I., S.A. Abbasi: Techniques and methodologies for risk analysis in chemical process industries. Journal of Loss Prevention in the Process Industries, 11, pp. 261-277, Elsevier, 1998.

[108] Khan, F. I.: Use maximum-credible accident scenarios for realistic and reliable risk assessment. The CEP Magazine, 2001.

[109] Kirchsteiger, C.: Trends in accidents, disasters and risk sources in Europe. Journal of Loss Prevention in the Process Industries, 12, pp. 7-17, Elsevier, 1999.

[110] Klinder, K.: Niedertemperatur-Brennstoffzellen in der Hausenergieversorgung. Produktmanagement Brennstoffzellen, Vaillant GmbH, Germany, 2002.

[111] Kreuter, W., H. Hofmann: Electrolysis - The important energy transformer in a world of sustainable energy. Int. Journal of Hydrogen Energy, 23, pp.661-666, Elsevier, 1998.

[112] Krom, L.S.: Renewable hydrogen for transportation study. Final report, Wisconsin Energy Bureau, Wisconsin, 1998.

[113] Kruger, P.: Electric power requirement in California for large-scale production of hydrogen fuel. Int. Journal of Hydrogen Energy, 25, pp.395-405, Elsevier, 2000.

[114] Larsen, J., M. Michel, J. Zschommler, M. Whysall, S. Vanheertum: Large-scale hydrogen plants. Uhde and UOP's experience, 2003

[115] Lees, F. P., Mannan, S.: Loss prevention in the process industries. Vol. 1, 3rd Edition, Elsevier Butterworth-Heinemann, 2005

[116] Lees, F. P., Mannan, S.: Loss prevention in the process industries. Vol. 2, 3rd Edition, Elsevier Butterworth-Heinemann, 2005

[117] Lees, F. P., Mannan, S.: Loss prevention in the process industries. Vol. 3, 3rd Edition, Elsevier Butterworth-Heinemann, 2005

[118] Lelewer, S.A., H. Barnes, D. Haberman: Hazards assessment for failures involving hydrogen production and transfer. The 43rd International SAMPE Symposium, 1998

[119] Linde: Hydrogen - energy carrier of the future. Linde AG, Industrial gas division.

[120] Lorek, S., Joachim H.: Spangenberg - Indicators for environmentally sustainable household consumption. Wuppertal Institute, Wuppertal, and Sustainable Europe Research Institute, Vienna.

[121] Lorex, S.: Household energy and water consumption - German case study. OECD, Sustainable Europe Research Institute.

[122] Melaina, M.W.: Initiating hydrogen infrastructure - preliminary analysis of a sufficient number of initial hydrogen station in the US. International Journal of Hydrogen Energy, 28, pp. 743 - 755, Elsevier, 2003

[123] Michel, F. H. Fieseler, G. Meyer, F. TheiBen: On-board equipment for liquid hydrogen vehicles. Int. Journal of Hydrogen Energy, 23, pp. 191 - 199, Elsevier, 1998

[124] Mitsugi, C., A. Harumi, F. Kenzo: WE-NET-Japanese hydrogen program. International Journal of Hydrogen Energy, 23, No.3, pp.159-165, 1998

[125] Modarres, M.: Reliability and risk analysis. Marcel Dekker, Inc., USA, 1993.

[126] Monnier, M.N. and A.V. Gheorghe: Quantitative risk assessment of hazardous material transport system. Kluwer Academic Publishers, London-UK, 1996.

[127] Muradova, N.Z., T.N. Veziroglu: From hydrocarbon to hydrogen-carbon to hydrogen economy. International Journal of Hydrogen Energy, 30, pp. 225 - 237, Elsevier, 2005.

[128] NASA: Glenn safety manual - Chapter 6 "Hydrogen". NASA Glenn Research Center, 2003

[129] NASA: Safety standard for hydrogen and hydrogen systems. Guidelines for hydrogen system design, materials selection, operations, storage, and transportation office of safety and mission assurance, Washington DC

[130] National Transportation Safety Board: Release and ignition of hydrogen following collision of a tractor-semitrailer with horizontally mounted cylinders and a pickup truck. Hazardous Materials Accident, NTSB/HZM-02/02, Washington DC, 2002.

[131] Nayyar, M. L.: Piping handbook. McGraw-Hill, New York, 2000

[132] NFPA 50A: Standard for gaseous hydrogen systems at consumer sites. The National Fire Protection Agency (NFPA) 50A document, 1989.

[133] NFPA 50B: Standard for liquid hydrogen systems at consumer sites. The National Fire Protection Agency (NFPA) 50B document, 1989.

[134] Nijs jan Duijm, Frank Markert, Jette Lundtang Paulsen: Safety assessment of ammonia as a transport fuel. Riso National Laboratory, Roskilde, Denmark, 2005.

[135] Nilsen, S.: Regulations, standards and safety - status, gaps & needs. Procceding of the International German Hydrogen Conference, Essen, 2004.

[136] NRW: Hydrogen - sustainable energy for transport and energy utility markets. Landesinitiative Zukunftsenergien, NRW, Germany, 2001

[137] NUREG/CR-1278: Handbook of human reliability analysis with emphasis on nuclear power plant applications. 1980.

[138] NUREG-75/014(WASH-1400): Reactor safety study- an assessment of accident risks in U.S. commercial nuclear power plants. 1975.

[139] Nyborg, D. R. Hay and P. Benard: Clearance distance and hazardous zone issues for hydrogen systems. The National Hydrogen Association's 14th Annual U.S. Hydrogen Meeting, Washington, 2003.

[140] Nystedt, F.: Risk management in land use planning. http://www.oresundsafety.se

[141] Ogden, J. M., M. Steinbugler, T. G. Kreutz: A comparison of hydrogen, methanol and gasoline as fuels for fuel cell vehicles - implications for vehicle design and infrastructure development. Journal of Power Source, 79, pp. 143-168, Elsevier, 1999.

[142] Ogden, J. M.: Developing an infrastructure for hydrogen vehicles- a Southern California case study. International Journal of Hydrogen Energy, 13, pp. 698-629, Pergamon, 1999

[143] Ogden, J. M.: Hydrogen as an energy carrier - outlook for 2010, 2030 and 2050. Davis, CA, 2004.

[144] Ogden, J. M.: Hydrogen delivery model for H2A Analysis. Institute of Transportation Studies; Paper UCD.ITS.RR.04.33, California, 2004.

[145] Ogden, J. M.: Prospects for building a hydrogen energy infrastructure. Center for Energy and Environmental Studies, Princeton University, Princeton, USA, 1999

[146] Opschoor, G., et.al: Methods for calculation of damage resulting from physical effects of the accidental release of dangerous materials. Int. Conference on Hazard Identification and Risk Analysis, Human Reliability in Process Safety, Florida, 1992.

[147] OREDA 97: OREDA offshore reliability data handbook. 3rd Edition, OREDA Participants, Det Norske Veritas (DNV), Hovik, Norway, 1997.

[148] Ordin, P.M.: Review of hydrogen accidents and incidents in NASA operations. Proceeding of the Ninth Intersociety energy Conversion Engineering Conference, pp. 442-453, American Society of Mechanical Engineering, New York, 1974.

[149] Oystein Ulleberg: Modeling of advanced alkaline electrolyzers- a system simulation approach. International Journal of Hydrogen Energy, 28, pp. 21 - 33, Elsevier, 2003

[150] Parliamentary Office of Science and Technology: Prospects for a hydrogen economy. Postnote, No. 186, 2002

[151] Perry, Robert H.: Perry's chemical engineers'handbook. The 7th Edition, Editor: Don W. Green and James O'Hara Maloney, McGraw-Hill, USA, 1997.

[152] Peschka, Walter: Liquid hydrogen - Fuel of the future. Springer-verlag, Wien, 1992

[153] Piccioni, Brian: The Hydrogen Economy. Technology Research, BMO-Nesbitt Burns, Toronto-Ontario, 2004

[154] Pierre Benarda, P., V. Mustafa, D.R. Hay: Safety assessment of hydrogen disposal on vents and flare stacks at high flow rates. International Journal of Hydrogen Energy, 13, pp. 378 384, Elsevier, 1999.

[155] Pierre H., J. Joubert, B. Lachal, K. Yvon: Evaluation of a 5 kWp photovoltaic hydrogen production and storage installation for a residential home in Switzerland. International Journal of Hydrogen Energy, 25, pp. 97-109, Elsevier, 2000

[156] Quinn, D.J., P.A. Davis: Development of an intermediate societal risk methodology - An investigation of FN curve representation. HSE Books, UK, 2003

[157] Richei, A., U. Hauptmanns, H. Unger: Human error rate assessment and optimization system HEROS-new procedure for evaluating and optimizing the man-machine interface in PSA. Reliability Engineering and Safety System, 72, pp. 153164, Elsevier, 2002

[158] Rijnmond Public Authority: A risk analysis of 6 potentially hazardous industrial objects in the Rijnmond area—a pilot study. D. Reidel, Dordrecht, the Netherlands and Boston,1982

[159] Roos, A.J.: Guidelines for quantitative risk assessment. CPR 18E ("Purple book"), Voorburg, the Netherlands, 1999

[160] Roos, A.J.: Methods for the determination of possible damage. CPR 16E ("Green Book"), Voorburg, the Netherlands, 1989

[161] Rosyid, O.A. and A. Hadianto: Hydrogen as alternative fuel for future transportation system. Proceeding of the 7th ISSM, Berlin, 2002.

[162] Rosyid, O.A. and U. Hauptmanns: Quantitative risk assessment of hydrogen storage in a solar hydrogen plant. Alumni Summer School 2004- Sustainable development for better future, pp. 279-302, Edited by Golba et. al., Oldenburg-Germany, 2004.

[163] Rosyid, O.A. and U. Hauptmanns: Safety assessment of hydrogen cycle for energetic utilization. Proceeding of 9th ISSM, pp. 25-29, Aachen, Germany, 2004

[164] Rosyid, O.A. and U. Hauptmanns: System analysis safety assessment of hydrogen cycle for energetic utilization. Proceeding of the International Hydrogen Energy Conference, Istanbul-Turkey, 2005.

[165] Runci, P.J.: Energy R&D in Germany. US Department of Energy, 1999.

[166] Schindler, J., Patrick Schmidt: Brennstoffzellen- und Wasserstoff-Technologien als wirtschaftliche Chance für Hamburg. Studie im auftrag der Freien und Hansestadt Hamburg / Behörde für Umwelt und Gesundheit, L-B-Systemtechnik GmbH, 2004.

[167] Schmidt D., U. Krause, U. Schmidtchen: Modelling of advanced alkaline electrolyzers: a system simulation approach. International Journal of Hydrogen Energy,28, pp.21 - 33, 2003

[168] Schmidtchen, U: Direct communication. Secretariat of the German hydrogen association, BAM, Berlin, 2004

[169] Schug, C.A.: Operational characteristics of high-pressure, high-efficiency water-hydrogen-electrolysis. International Journal of Hydrogen Energy, 12, pp.1113-1120, Elsevier, 1998

[170] Seo Y. Kim, B. H. Kang: Thermal design analysis of a liquid hydrogen vessel. International Journal of Hydrogen Energy, 25, pp.133-141, Elsevier, 2000.

[171] SFK: Anwendung der Wasserstoff-Technologie Eine Bestandaufnahm. Störfall Komission (SFK), SFK-GS-37, 1998, 2002.

[172] SFK: Risikomanagement im Rahmen der Störfall-Verordnung, Technische Systeme, Risiko Und Verständigungsprozesse. SFK-GS-41, Bonn, 2004.

[173] Shvachko, V.I.: Cold cracking of structural steel weldments as reversible hydrogen embrittlement effect. International Journal of Hydrogen Energy, 25, pp. 473-480, Elsevier, 2000

[174] Solomon, B.D., A. Banerjee: A global survey of hydrogen energy research, development and policy. Energy Policy, Article in press, Elsevier, 2004

[175] Stamatelatos M., et.el.: Probabilistic risk assessment procedures guide for NASA managers and practitioners. Office of Safety and Mission Assurance NASA headquarters Washington DC, 2002.

[176] Statistisches Bundesamt: Statistisches Jahrbuch. DE Statis (CD ROM), Statistisches Bundesamt, Wiesbaden, Germany, 2003

[177] Stoikou, V.: Approach to the hazardous area classification. The midland section at the monckton coke & chemicals works, Royston, Barnsley, 2001.

[178] Sutton, I. S.: Process reliability and risk management, Van Nostrand Reinhold, USA, 1992.

[179] Swain, M.R., B.G. Sivert, M.N. Swain: Hydrogen safety analysis. MI, 1997

[180] Swain, M.R.: Fuel leak simulation. University of Miami,Coral Cables, FL 33124

[181] Szyska, A.: Ten years of solar hydrogen demonstration project at Neunburg vorm Wald, Germany. Int. Journal of Hydrogen Energy, 23, pp. 849-860, Elsevier, 1998.

[182] Szyska, A.: Thirteen successful years of SWB's solar hydrogen demonstration project at Neunburg vorm Wald. Manuscript No. 23, Germany, July 1999

[183] Taylor, J.R.: Risk analysis for process plant, pipelines and transport. E&FN Spon, UK, 1994.

[184] T-book: Reliability data of components in Nordic nuclear power plants. 3rd Edition, the ATV Office, Vattenfall Support Grafiska, Sweden, 1992

[185] Thomas, E.: Direct-hydrogen-fueled proton-exchange-membrane fuel cell system for transportation applications. Hydrogen vehicle safety report, U.S. DOE, Office of Transportation Technologies, prepared by Directed Technologies, Inc., 1997.

[186] TNO: Analysis of the risk inherent in the importation of LPG in bulk at four sites in the Netherlands. Ministry of health and Environmental protection, TNO, 1980.

[187] TNO: LPG - A study - A comparative analysis of the risks inherent in the storage, transhipment, transport, and use of LPG and motor spirit. TNO, Apeldoorn, the Netherlands, 1983.

[188] TNO: Methods for the calculation of the physical effects of the escape of dangerous materials. Liquids and Gases, 2, Apeldoorn, The Netherlands, 1979

[189] Tobias, P. A. and D.C. Trindade: Applied Reliability. Second Edition, Van Norstrand Reinhold, USA, 1995.

[190] Tzimas, E., C. Filiou, S.D. Peteves, J.B.Veyret: Hydrogen storage. State-of-the-art and future perspectiv, European Commssion, EUR 20995 EN, The Netherland, 2003.

[191] U.S. DOE: Direct-hydrogen-fuelled PEM fuelcell system for transportation applications. Hydrogen safety report, Prepared by Ford Motor Company, Dearborn.

[192] U.S. DOE: Guidance for safety aspects of proposed hydrogen projects. U.S. Department of Energy Hydrogen, Fuel Cells & Infrastructure Technologies Program, 2004.

[193] US DOE: National hydrogen energy roadmap. Toward a more secure and cleaner energy future for America, United States Department of Energy, 2002.

[194] Vaillant: Das Vaillant Brennstoffzellen-Heizgerät. Vaillant GmbH, 2001.

[195] Vaillant: Heating and electric power for the future Innovative energy supply for multifamily homes. Innovation report fuel-cell heating appliance, Vaillant Technical, 2001.

[196] Verkin, B.I., T. Selover: Handbook of properties of condensed phases of hydrogen and oxygen. Hemisphere Publication Corp., New York, 1991.

[197] Wässer, U.: Direct communication. Study visit to the Hydrogen Authority Center (Wasserstoff-Kompetenz-Zentrum), BVG Usedomer str., Berlin, 2004.

[198] Weinmann, O. and S. Zisler: The Hamburg hydrogen fleet W.E.I.T. Hamburger Wasserstoff-Agentur, DE-22083 Hamburg, Germany.

[199] Wetzel, F.: Improved handling of liquid hydrogen at filling stations - Review of six years experiences. International Journal of Hydrogen Energy, 23, pp.339 - 348, Elsevier, 1998.

[200] Winter, C.J. & J. Nitsch: Wasserstoff als Energieträger. Springer-Verlag Berlin Heidelberg, Germany, 1989.

[201] Winter, C.J.: Direct communication. Discussion at the International Hydrogen Energy Conference, Istanbul, Turkey, 2005

[202] Winter, C.J.: On the HYway—sustainable assets in Germany's energy state's portfolio. International Journal of Hydrogen Energy, 28, pp. 477 - 481, Elsevier,

2003

[203] Witlox, H.W.M. and A. Holt: A unified model for jet, heavy and passive dispersion including droplet rainout and re-evaporation. Det Norske Veritas, London, UK, 1999

[204] Wolstenholme, L. C.: Reliability Modelling - Statistical approach. Chapman & Hall/CRC, USA, 1999.

[205] Worthington, D. and H. Witlox: population impact of toxic and flammable effects (MPACT). DNV, UK, 2003

[206] Wunster R.: Hydrogen activities in the European Union and Germany. H2NET-Symposium, 2001

[207] Wunster, R. and Zittel, W.: Hydrogen energy. workshop on energy technologies to reduce CO2 emissions in Europe - Prospects, Competition, Synergy, Energieonderzoek Centrum Nederland ECN, Petten, 1994

[208] Würsig, G.: Seetransport und Verwendung von Wasserstoff Forschung und Entwicklung 1986 bis heute. DKV-Jahrestagung, Würzburg, 1998

[209] Wurster, R.: Bavarian liquid hydrogen bus demonstration project. Publication for 'Hydrogen Power Now' - the 9th Canadian Hydrogen Conference, Canada, 1999.

[210] Wurster, R.: Hydrogen application in urban vehicles. Ludwig-Bölkow-Systemtechnik GmbH, Ottobrunn, Germany, 1997

[211] Yürüm, Y.: Production and utilization of hydrogen and future aspects. Hydrogen Energy System, Kluwer Academic Publischers, Dordrecht/Boston/London, 1995.

[212] Zittel. W. and Reinhold W.: Hydrogen in the energy sector. Ludwig-Bülkow-Systemtechnik GmbH, Ottobrunn, Germany, 1996

[213] Züttel, A.: Material for hydrogen storage. Material Today, Elsevier, 2003

[214] Fuel cells 2000: http.//www.fuelcells.org/info/charts/h2fuelingstations.pdf, last accessed October 2005

[215] SWB: Toward the future - the solar hydrogen project in Neunburg vorm Wald. Germany. Solar Wasserstoff Bayern GmbH, 1999.

[216] Linde AG: Tank Installations for the Supply of Liquefied Gases, http://www.hnde-gas.com/international/web/lg/com/likelgcom30.nsf/repositorybyalias/ 8772_6_20tank_20installations/$file/8772_6_Tank_Installations.pdf.

[217] Total Deutschland GmbH: Die Total Wasserstoffstankstelle, www.total-h2.de/

[218] Stromberger, R: Hydrogen and fuel cells workshop. Vienna, 2004

[219] Krainz, G.: Storage system for mobile applications. Hydrogen and fuelcells based on energy system in a future sustainable energy world, Vienna, 2004.

[220] Metz, S.: European hydrogen technology. Linde Technology, Berichte aus Technik und Wissenschaft, July 2005.

[221] Bottelberghs, P.H.: Risk analysis & safety policy development in the Netherlands. Journal of Hazardous Material, 71, pp. 59-84, 2000.

[222] Major Accident Hazards Bureau: Land use planning guidance. EC- Joint Research Centre, Institute for the Protection and Security of the Citizen Hazard Assessment Unit.

[223] Taylor-Wharton: Operator's Manual. Gas & fluid control group, Harsco.

[224] OREDA 2002: Offshore reliability data. 4st Edition, OREDA Participants, Det Norske Veritas (DNV), Hovik, Norway, 2002.

[225] Wurster, R: Hydrogen regulations, codes and standards for road vehicles and their refueling infrastructure in Europe. CUTE, 14 -15 June 2004, London.

[226] EIHP: Proceedings of the Workshop of the European Integrated Hydrogen Project -Phase II [EIHP2]. Held at the European Commission's CCAB - Centre Albert Borchette, Brussels, 02 October 2002.

[227] Gregory, F. D.: Safety standard for hydrogen and hydrogen Systems. Guidelines for Hydrogen System Design, Materials Selection, Operations, Storage, and Transportation

NASA, Office of Safety and Mission Assurance, Washington, 1997.

[228] Schulz, P., et. al.: Sicherheitstechnische Aspekte zum Aufbau einer Wasserstoffinfrastruktur. Wasserstoff-Kompetenzzentrum Berlin, Technische Überwachung, TÜ, 4, pp. 10-13, Springer-VDI-Verlag, 2003.

[229] VDI: Tehnicsche Überwachung; VDI Verlag; TÜ Bd. 43, 10, Oktober, 2002.

[230] Committee for the prevention of Disasters: Methods for the calculation ofphysical effects. CPR 14E ("Yellowbook"), The Hague, the Netherlands, 1997

[231] Schmidtchen, U.: Hydrogen Safety. Federal Institute for Materials Research and Testing (BAM), on the EIHP Workshop, Brussels, 2 October 2002.

[232] Report of the Presidential Commission on the Space Shuttle Challenger Accident

[233] UCLA Engineer: Hydrogen Didn't Cause Hindenburg Fire. Former NASA Researcher Find, UCLA News, 1998.

[234] Skelton, B.: Process safety analysis - an introduction. Institution of Chemical Engineers, UK, IChemE, Bob Skelton, 1997

[235] Zimmerman, R.D.: Cost-effective risk assessment for process design. McGraw-Hill, Inc., 1995.

[236] EIGA: Guidance on compliance with the Seveso-II Directive. Prevention of major accidents. European Industrial Gases Association, IGC Doc 60/04/E, Brussels, 2004.

[237] Tobias, P.A., David C.T.: Applied Reliability. Second Edition, Van Nostrand Reinhold, New York, 1995.

[238] Parry, Cyril F.: Handbook of relief system. Institution of Chemical Engineers, UK, 1994.

[239] Fitzgerald, Bill: Control valves for the chemical process industries. McGraw-Hill, Inc.,USA, 1995.

[240] Committee for the Prevention of Disasters: Methods for the determining and processing probabilities. CPR 12E ("Redbook"), 2nd Edition, the Hague, the Netherlands, 1997

[241] GRS: Deutsche Risikostudie kernkraftwerke. (Phase B), Gesellschaft für Reaktorsicherheit, Verlag TÜV Rheinland, Koln, Germany, 1990.

[242] Hauptmanns, U., W. Werner: Engineering risks - Evaluation and valuation. Springer-Verlag Berlin, Heidelberg, Germany, 1991.

[243] EIHP2: Risk acceptance criteria for Hydrogen Refuelling Stations. European Integrated Hydrogen Project [EIHP2], By Norsk Hydro ASA and DNV for WP5.2, 2003.

[244] ANSI: Instrumentation Symbols and identification. ANSI/ISA-5.1-1984 (R1992), The Instrumentation System and Automation Society, North California, 1992.

[245] ANSI: Graphic symbols for distributed control display instrumentation, logic and computer system. ISA-5.3-1983, The Instrumentation System and Automation Society, North California, 1982.

[246] Ball, D. J., and Peter J.F.: Societal risk. Final report, School of health, Biological, and Environmental Science, Middlesex University, London, UK.

Getting Started With Solar

Getting Started With Solar

Do we really want the one thing that gives us its resources unconditionally to suffer even more than it is suffering now? Nature, is a part of our being from the earliest human days. We respect Nature and it gives us its bounty, but in the recent past greedy money hungry corporations have made us all so destructive, so wasteful.

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