Environmental Engineering Reference
In-Depth Information
injection: implications for the storage of greenhouse gases in sedimentary basins.
Geology
,
34, 577-580.
Khaselev, O., Bansal, A. and Turner, J. A. (2001) High-efficiency integrated multijunction
photovoltaic/electrolysis systems for hydrogen production.
International Journal of Hydro-
gen Energy
, 26, 127-132.
Kramer, D. A. (2005) Nitrogen (Fixed)—Ammonia, U.S. Geological Survey, Mineral Commodity
Summaries. Released on January 2005. pp. 116-117. http://minerals.usgs.gov/minerals/pubs/
commodity/nitrogen/nitromcs05.pdf. Accessed on January 20, 2011.
Kubo, S, Kasahara, S., Okuda, H., Terada, A., Tanaka, N., Inaba, Y., Ohashi, H., Inagaki, Y.,
Onuki, K. And Hino, R. (2004) A pilot test plan of the thermochemical water-splitting
iodine-sulfur process.
Nuclear Engineering and Design
, 233, 355-362.
Kudo, A. (2007) Photocatalysis and solar hydrogen production.
Pure and Applied Chemistry
,
79, 1917-1927.
Kudo, A. and Miseki, Y. (2009) Heterogeneous photocatalyst materials for water splitting.
Chemical Society Review
, 38, 253-278.
Lasich, J. B. (1999) Production of hydrogen from solar radiation at high efficiency.
US Patent
No. 5,973,825.
October 26, 1999.
Lee, S. C., Choi, B. Y., Lee, S. J., Jung, S.Y., Ryu, C.K. and Kim, J.C. (2004) CO
2
absorption
and regeneration using Na and K based sorbents. S
tudies in Surface Science and Catalysis
,
153, 527-530.
Lee, J. B., Ryu, C. K., Baek, J., Lee, J.H., Eom, T.H. and Kim, S.H. (2008) Sodium-based dry
regenerable sorbent for carbon dioxide capture from power plant flue gas.
Industrial and
Engineering Chemistry Research
, 47, 4465-4472.
Le Gal, A., Abanades, S. and Flamant, G. (2010) Development of mixed metal oxides for thermo-
chemical hydrogen production from solar water-splitting.
Parallel Sessions Book 2: Hydrogen
Production Technologies - Part 1. Proceedings of the WHEC
. 18th World Hydrogen Energy
Conference 2010 - WHEC, May 16-21, 2010, Essen, Germany.
Lewis, M. A. (2008) Update on the Cu-Cl cycle R& D effort. Workshop of the ORF Hydrogen
Project at AECL Chalk River Laboratories. pp. 25-33. Chalk River, Ontario, October 17,
2008.
Lewis, M. A. and Taylor, A. (2006) High temperature thermochemical processes.
DOE
Hydrogen Program, Annual Progress Report
, pp. 182-185, Washington DC, 2006.
Li, Q., Guo, B., Yu, J., Ran, J., Zhang, B., Yan, H. and Gong, J.R. (2011) Highly efficient
visible-light-driven photocatalytic hydrogen production of CdS-cluster-decorated graphene
nanosheets.
Journal of the American Chemical Society
133 10878-10884.
Liang, Y. and Harrison, D. P. (2004) Carbon Dioxide Capture Using Dry Sodium-Based Sorbents.
Energy and Fuels
, 18, 569-575.
Licht, S. (2005) Solar water splitting to generate hydrogen fuel - a photothermal electrochemical
analysis.
International Journal of Hydrogen Energy
, 30, 459-470.
Licht, S., Wang B., Mukerji S., T. Soga, Umeno M. and Tributsch H. (2000) Efficient solar water
splitting, exemplified by RuO
2
-catalyzed AlGaAs/Si photoelectrolysis.
Journal of Physical
Chemistry, B, 104
, 8920-8924.
Little, M. and Jackson, R.B. (2010) Potential impacts of leakage from deep CO
2
geosequestration
on overlying freshwater aquifers.
Environmental Science and Technology
, 44, 9225-9232.
Litwin, R. Z. and Pinkowski, S.M. (2010) Solar power for thermochemical production of
hydrogen.
US patent
. Patent No.: US7,726,127 B2, June 1, 2010.
Maeda, K. (2011) Photocatalytic water splitting using semiconductor particles: history and
recent developments.
Journal of Photochemistry and Photobiology C: Photochemistry
Reviews
12, 237-268.
Maeda, K. and Domen, K. (2010) Photocatalytic water splitting: recent progress and future
challenges.
Journal of Physical Chemistry Letters
, 1, 2655-2661.
Search WWH ::
Custom Search