Environmental Engineering Reference
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Gebicki, J., Modigell, M., Schumacher, M., Burgb, J.V.D. and Roebroeck, E. (2009) Devel-
opment of photobioreactors for anoxygenic production of hydrogen by purple bacteria.
Chemical Engineering Transactions , 18, 363-366.
Gest, H. and Kamen, M.D. (1949) Photoproduction of molecular hydrogen by Rhodospirillum
rubrum . Science , 109, 558-559.
Ghirardi, M.L., Zhang, L.P., Lee, J.W., Flynn, T., Seibert, M., Greenbaum, E. and Melis, A.
(2000) Microalgae: a green source of renewable H 2 . Trends in Biotechnology , 18, 506-510.
Gilbert, J.J., Subhabrata, R. and Das, D. (2011) Hydrogen production using Rhodobacter
sphaeroides (O.U. 001) in a flat panel rocking photobioreactor. International Journal of
Hydrogen Energy , 36, 3434-3441.
Guan, Y.F., Zhang, W., Deng, M.C., Jin, M.F. and Yu, X.J. (2004) Significant enhancement of
photobiological H 2 evolution by carbonylcyanide m-chlorophenylhydrazone in the marine
green alga Platymonas subcordiformis . Biotechnology Letters , 26, 1031-1035.
Guo, C.L., Zhu, X., Liao, Q., Wang, Y.Z., Chen, R. and Lee, D.J. (2011) Enhancement of
photo-hydrogen production in a biofilm photobioreactor using optical fiber with additional
rough surface. Bioresource Technology , 102, 8507-8513.
Hakobyan, L., Gabrielyan, L. and Trchounian, A. (2012) Ni (II) and Mg (II) ions as fac-
tors enhancing biohydrogen production by Rhodobacter sphaeroides from mineral springs.
International Journal of Hydrogen Energy , 37, 7482-7486.
Hallenbeck, P.C. and Benemann, J.R. (2002) Biological hydrogen production: fundamentals and
limiting processes. International Journal of Hydrogen Energy , 27, 1185-1193.
Hansel, A. and Lindblad, P. (1998) Towards optimization of cyanobacteria as biotechnologically
relevant producers of molecular hydrogen, a clean and renewable energy source. Applied
Microbiology and Biotechnology , 50, 153-160.
Happe, T. and Kaminski, A. (2002) Differential regulation of the [Fe]-hydrogenase during
anaerobic adaptation in the green alga Chlamydomonas reinhardtii . European Journal of
Biochemistry , 269, 1022-1032.
Happe, T., Hemschemeier, A., Winkler, M. and Kaminski, A. (2002) Hydrogenase in green
algae: do they save the algae's life and solve our energy problems? Trends in Plant Science ,
7, 246-250.
Hoekema, S., Bijmans, M., Janssen, M., Tramper, J. and Wijffels, R.H. (2002) A pneumatically
agitated flat-panel photobioreactor with gas re-circulation: anaerobic photoheterotrophic
cultivation of a purple non-sulfur bacterium. International Journal of Hydrogen Energy , 27,
1331-1338.
Iqbal, M., Grey, D., Stepan-Sarkissian, F. and Fowler, M.W. (1993) A flat-sided photobioreactor
for continuous culturing microalgae. Aquacultural Engineering , 12, 183-190.
Kapdan, I.K. and Kargi, F. (2006) Bio-hydrogen production from waste materials. Enzyme and
Microbial Technology , 38, 569-582.
Kars, G., Gunduz, U., Yucel, M., Turker, L. and Eroglu, I. (2006) Hydrogen production and
transcriptional analysis of nif D, nif K and hup S genes in Rhodobacter sphaeroides O.U.001
grown in media with different concentrations of molybdenum and iron. International Journal
of Hydrogen Energy , 31, 1536-1544.
Kashyap, A.K., Pandey, K.D. and Sarkar, S. (1996) Enhanced hydrogen photoproduction by
non-heterocystous cyanobacterium Plectonemaboryanum . International Journal of Hydro-
gen Energy , 21, 107-109.
Keskin, T., Abo-Hashesh, M. and Hallenbeck, P.C. (2011) Photofermentative hydrogen
production from wastes. Bioresource Technology , 102, 8557-8568.
Koku, H., Eroglu, I., Gunduz, U., Yucel, M. and Turker, L. (2002) Aspects of the metabolism
of hydrogen production by Rhodobacter sphaeroides . International Journal of Hydrogen
Energy , 27, 1315-1329.
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