Biomedical Engineering Reference
In-Depth Information
Martinez, FO; Lema, J; Mendez, R; Cuervo-Lopez, F; Gomez, J. Role of exopolymeric
protein on the settleability of nitrifying sludges.
Bioresource Technology,
2004, 94, 43-
48.
Morgan, JW; Forster, CF; Evison, L. A comparative study of the nature of biopolymers
extracted from anaerobic and activated sludge.
Water Research,
1990, 24, 743-750.
Nogueira, R; Melo, LF; Purkhold, U; Wuertz, S; Wagner, M. Nitrifying and heterotrophic
population dynamics in biofilm reactors: effects of hydraulic retention time and the
presence of organic carbon.
Water Research,
2002, 36, 469-481.
Okabe, S; Hiratia, K; Ozawa, Y; Watanabe, Y. Spatial-microbial distribution of nitrifiers and
heterotrophs in mixed-population biofilms.
Biotechnology and Bioengineering,
1996, 50,
24-35.
Okabe, S; Kindaichi, T; Ito, T; Satoh, H. Analysis of size distribution and areal cell density of
ammonia-oxidizing bacterial microcolonies in relation to substrate microprofiles in
biofilms.
Biotechnology and Bioengineering,
2004, 85, 86-95.
Oyanedel, V; Campos, JL; Garrido, JM; Lazarova, V; Mendez, R. Development of a
membrane-assisted hybrid bioreactor for ammonia and COD removal in wastewaters.
Journal of Chemical Technology and Biotechnology,
2005, 80, 206-215.
Park, SJ; Lee, HS; Yoon, TI. The evaluation of enhanced nitrification by immobilized biofilm
on a clinoptilolite carrier.
Bioresource Technology,
2002, 82, 183-189.
Petropoulos, P; Gilbride, KA. Nitrification in activated sludge batch reactors is linked to
protozoan grazing of the bacterial population.
Canadian Journal of Microbiology,
2005,
51, 791-799.
Rittmann, BE; McCarty, PL.
Environmental biotechnology
:
principles and
applications
. New
York: McGraw-Hill Book Co. 2001.
Rothman, M. Operation with biological nutrient removal with stable nitrification and control
of filamentous growth.
Water Science and Technology,
1998, 37, 549-554.
Texier, AC; Gomez, J. Settleability and kinetics of a nitrifying sludge in a sequencing batch
reactor.
Canadian Journal of Microbiology,
2004, 50, 943-949.
Turk, O; Mavinic, DS. Benefits of using selective inhibition to remove nitrogen from highly
nitrogenous wastes.
Environmental Technology Letters,
1987, 8, 419-426.
Van Benthum, WAJ; Van Loosdrecht, MCM; Heijnen, JJ. Control of heterotrophic layer
formation on nitrifying biofilm in a biofilm airlift suspension reactor.
Biotechnology and
Bioengineering,
1997, 53, 397-405.
Villaverde, S; Garcia-Encina, PA; Fdz-Polanco, F. Influence of pH over nitrifying biofilm
activity in submerged biofilters.
Water Research,
1997, 31, 1180-1186.
Villaverde, S; Fdz-Polanco, F; Lacalle, ML; Garcia, PA. Influence of the suspended and
attached biomass on the nitrification in a two submerged biofilters in series system.
Water Science and Technology
, 2000, 41, 169-176.
Wagner, M; Rath, G; Amann, R; Koops, HP; Schleifer, KH. In situ identification of
ammonia-oxidizing bacteria.
Systematic and Applied Microbiology,
1995, 18, 251-264.
Wu, G; Rodgers, M; Zhan, X. Nitrification in sequencing batch reactors with and without
glucose addition at 11 °C.
Biochemical Engineering Journal,
2008a, 40, 373-378.
Wu, G; Guan, Y; Zhan, X. Effect of salinity on the activity, settling and microbial community
of activated sludge in sequencing batch reactors treating synthetic saline wastewater.
Water Science and Technology,
2008b, 58, 351-358.
