Storage and transportation opportunities of hydrogen

Energy Sources, Part B: Economics, Planning and Policy

Volumn 2, Issue 3, 2007, Pages 287-295

  Demirbas, A ^a  

^a SILA SCIENCE   (Turkey)

Author keywords

Hydrogen; Metal hydride; Storage; Transportation

Indexed keywords

CHEMISORPTION; FUEL STORAGE; HYDRIDES; HYDROGEN STORAGE ALLOYS; TRANSPORTATION;

HYDROGEN TRANSPORTATION; LIQUID HYDROGEN; METAL HYDRIDES;

HYDROGEN STORAGE;

EID: 34548431026     PISSN: 15567249     EISSN: 15567257     Source Type: Journal    
DOI: 10.1080/15567240600629419     Document Type: Article

References (29)

1. Bogdanovic, B., and Schwickardi, M. 1997. Ti-doped alkali metal aluminum hydrides as potential novel reversible hydrogen storage materials. J. Alloys Comp. 253-254:1-9.
2. Bogdanovic, B., Brand, R. A., Marjanovic, A., Schwikardi, M., and Tolle, J. 2000. Metal doped sodium aluminum hydrides as potential new hydrogen storage materials. J. Alloys Comp. 302:36-58.
3. 2 uptake by alkali-doped carbon nanotubes under ambient pressure and moderate temperatures. Science 285:9.1-93.
4. Das, L. M. 1996. Hydrogen-oxygen reaction mechanism and its implication to hydrogen engine combustion. Int. J. Hydrogen Energy 21:703-715.
5. David, E. 2005. An overview of advanced materials for hydrogen storage. J. Materials Proc. Technol. 162-163:169-177.
6. Demirbas, A. 1998. Determination of combustion heat of fuels by using non-calorimetric experimental data. Energy Edu. Sci. Technol. 1:7-12.
7. Demirbas, A. 2002. Fuel properties of hydrogen, liquefied petroleum gas (LPG), and compressed natural gas (CNG) for transportation. Energy Sources 24:601-610.
8. Dillon, A. C., and Heben, M. J. 2001. Hydrogen storage using carbon adsorbents: Past, present and future. Appl. Phys. A 72:133-142.
9. Dillon, A. C., Jones, K. M., Bekkedahl, T. A., Kiang, C. H., Bethune, D. S., and Heben, M. J. 1997. Storage of hydrogen in single-walled carbon nanotubes. Nature 386:377-378.
10. Dinga, G. P. 1988. Hydrogen: The ultimate fuel and energy carrier. J. Chem. Educ. 65:688-691.
11. Fakioglu, E., Yurum, Y., and Veziroglu, T. N. 2004. A review of hydrogen storage systems based on boron and its compounds. Int. J. Hydrogen Energy 29:1371-1376.
12. Fan, Y.-Y., Liao, B., Liu, M., Wei, Y-L., Liu, M.-Q., and Cheng, H.-M. 1999. Hydrogen uptake in vapor grown carbon nanofibers. Carbon 37:1649-1652.
13. Green, R. K., and Glasson, N. D. 1992. High-pressure hydrogen injection for internal combustion engines. Int. J. Hydrogen Energy 17:895-901.
14. Gross, K. J., Thomass, G. J., and Jensen, C. M. 2002. Catalyzed alanates for hydrogen storage. J. Alloys Comp. 330-332:683-690.
15. Gupta, B. K., and Srivastava, O. N. 2000. Synthesis and hydrogenation behavior of graphitic nanofibers. Int. J. Hydrogen Energy 25:825-830.
16. Iijima, S. 1991. Helical microtubules of graphitic carbon. Nature 354:56-57.
17. Jensen, C. M., Zidan, R., Mariels, N., Hee, A., and Hagen, C. 1999. Advanced titanium doping of sodium aluminum hydride: segue to a practical hydrogen storage material? Int. J. Hydrogen Energy 24:461-465.
18. Miranda, R. 2004. Hydrogen from lignocellulosic biomass via thermochemical processes. Energy Edu. Sci. Technol. 13:21-30.
19. Momirlan, M., and Veziroglu, T. N. 2002. Current status of hydrogen energy. Renew. Sustain. Energy Reviews 6:141-179.
20. Nath, K., and Das, D. 2003. Hydrogen from biomass. Current Science 85:265-271.
21. Surmen, Y., and Demirbas, A. 2002. Thermochemical conversion of residual biomass to hydrogen for Turkey. Energy Sources 24:403-411.
22. Tsuzuki, K., Eiki, H., Inoue, N., Sagara, A., Noda, N., Hirohata, Y., and Hino, T. 1999. Hydrogen absorption/desorption behavior with oxygen contaminated boron film. J. Nuclear Materials 266-269:247-250.
23. Veziroglu, T. 1975. Hydrogen Energy, Part B. New York: Plenum.
24. Williamson Jr., K., and Edeskuty, F. 1986. Recent Developments in Hydrogen Technology, Vol. I-II. Boca Raton, FL: CRC Press.
25. Zaluska, A., Zaluski, L., and Strom-Oslen, J. O. 2000. Sodium alanates for reversible hydrogen storage. J. Alloys Comp. 298:125-134.
26. Zaluski, L., Zaluska, A., and Strom-Olsen, J. O. 1999. Hydrogenation properties of complex alkali metal hydrides fabricated by mechano-chemical synthesis. J. Alloys Comp. 290:71-78.
27. Zhou, L. 2005. Progress and problems in hydrogen storage methods. Renew. Sustain. Energy Rev. 9:395-408.
28. Ztlttel, A., Wenger, P., Sudan, P., Maurona, P., and Orimo, S. 2004. Hydrogen density in nanostractured carbon, metals and complex materials. Materials Sci. Eng. B108:9-18.
29. 4 a new hydrogen storage material. Journal of Power Sources 118:1-7.