Biomedical Engineering Reference
In-Depth Information
[30]
Tian, S., Lishman, L. and Murphy, K.L. (1994) Investigation Into excess sludge
activated sludge accumulation at low temperatures.
Water Res
28
(3), 501-509.
[31]
http://www.learner.org/channel/courses/envsci/unit/text.php?unit=4&secNum=3
[32]
Gerlach, S.A. (1978) Food-chain relationships in subtidal silty sand marine sediments
and the role of meiofauna in stimulating bacterial productivity.
Oecologia
33
(1), 55-
69.
[33]
Ginoris, Y. P., Amaral, A. L., Nicolau, A., Coelho, M.A.Z. and Ferreira E.C. (2007)
Recognition of protozoa and metazoa using image analysis tools, discriminant analysis
and neural network.
Anal Chim Acta
595
(1-2), 160-169.
[34]
Low, E.W. and Chase, H.A. (1999) Reducing production of excess biomass during
wastewater treatment.
Water Res
33
(5), 1119-1132.
[35]
Matz, C., Webb, J.S., Schupp, P.J., Phang, S.Y., Penesyan, A., Egan, S., Steinberg, P.
and Kjelleberg, S. (2008) Marine biofilm bacteria evade eukaryotic predation by
targeted chemical defense.
PLoS ONE
3
(7), e2744.
[36]
Jürgens, K. and Matz, C. (2002) Predation as a shaping force for the phenotypic and
genotypic composition of planktonic bacteria.
Antonie Van Leeuwenhoek
81
(1-4), 413-
434.
[37]
Ratsak, C.H. (2000) Effects of Nais elinguis on the performance of an activated sludge
plant.
Hydrobiologia
463
(1-3), 217-222.
[38]
Eikelboom, D.H. (2000) Process Control of Activated Sludge Plants by Microscopic
Investigation. IWA Publishing, UK, 85-102.
[39]
Huang, X., Liang, P. and Qian, Y. (2007) Excess sludge reduction induced by tubifex
in a recycled sludge reactor.
J Biotechnol
127
(3), 443-451.
[40]
Wei, Y.S., Wang, Y.W., Guo, X.S. and Liu, J.X. (2009) Sludge reduction potential of
the activated sludge process by integrating an oligochaete reactor.
J Hazard Mater
163
(1), 87-91.
[41]
Lapinski, J. and Tunnacliffe, A. (2003) Reduction of suspended biomass in municipal
wastewater using bdelloid rotifers.
Water Res
37
(9), 2027-2034.
[42]
Mayhew, M. and Stephenson, T. (1997) Low biomass yield activated sludge: A review.
Environ Technol
18
(9), 883-892.
[43]
Ratsak, C.H. and Verkuijlen, J. (2006) Sludge reduction by predatory activity of
aquatic oligochaetes in wastewater treatment plants: Science or fiction? A review.
Hydrobiologia
564
(1), 197-211.
[44]
Low, E.W. and Chase, H.A. (1999) The effect of maintenance energy requirements on
biomass production during wastewater treatment.
Water Res
33
(3), 847-853.
[45]
Luong, J.H.T. and Volesky, B. (1983) Heat evolution during the microbial process-
Estimation, measurement, and applications.
Adv Biochem Eng Biotechnol
28
, 1-40.
[46]
Dan, N.P. (2001) Biological treatment of high salinity wastewater using yeast and
bacterial systems. Ph.D dissertation. Asian Institute of Technology, Bankok, Thailand.
[47]
Sun, D.D., Khor, S.L., Hay, C.T. and Leckie, J.O. (2007) Impact of prolonged sludge
retention time on the performance of a submerged membrane bioreactor.
Desalination
208
(1-3), 101-112.
[48]
Canales, A., Pareilleux, A., Rols, J.L., Goma, G. and Huyard, A. (1994) Decreased
sludge production strategy for domestic wastewater treatment.
Water Sci Technol
30
(8), 97-106.