References
- L. Tyroller, D.P.L. Rousseau, S. Santa, J. García, Application of
the gas tracer method for measuring oxygen transfer rates in
subsurface flow constructed wetlands, Water Res., 44 (2010)
4217–4225.
- R.H. Kadlec, S.D. Wallace, Treatment Wetlands, 2nd ed., CRC
Press, Boca Raton, USA, 2009.
- J.M. Chern, S.R. Chou, C.S. Shang, Effects of impurities on
oxygen transfer rates in diffused aeration systems, Water Res.,
35 (2001) 3041–3048.
- R. Zamouche, M. Bencheikh-Lehocine, A.H. Meniai, Oxygen
transfer and energy savings in a pilot-scale batch reactor
for domestic wastewater treatment, Desalination, 206 (2007)
414–423.
- M.K. Stenstrom, R.G. Gilbert, Effects of alpha, beta, and theta
factor upon the design, specification and operation of aeration
systems, Water Res., 15 (1981) 643–654.
- F. Garcia-Ochoa, E. Gomez, V.E. Santos, J.C. Merchuk, Oxygen
uptake rate in microbial processes: an overview, Biochem. Eng.
J., 49 (2010) 289–307.
- K. Van’t Riet, Review of measuring methods and results in
nonviscous gas-liquid mass transfer in stirred vessels, Ind. Eng.
Chem. Process Des. Dev., 18 (1979) 357–364.
- L.A. Arrua, B.J. McCoy, J.M. Smith, Gas-liquid mass transfer in
stirred tanks, AIChE J., 36 (1990) 1768–1772.
- A.C. Badino, M.C.R. Facciotti, W. Schmidell, Volumetric oxygen
transfer coefficients (KLa) in batch cultivations involving non-Newtonian broths, Biochem. Eng. J., 8 (2001) 111–119.
- A.I. Galaction, D. Cascaval, C. Onisco, M. Turnea, Prediction
of oxygen mass transfer coefficients in stirred bioreactors for
bacteria, yeast and fungus broths, Biochem. Eng. J., 20 (2004)
285–294.
- K.G. Clarke, P.C. Williams, M.S. Smith, S.T.L. Harrison,
Enhancement and repression of the volumetric oxygen transfer
coefficient through hydrocarbon addition and its influence on
oxygen transfer rate in stirred tank bioreactors, Biochem. Eng.
J., 28 (2006) 237–242.
- A. Margaritis, J.E. Zajic, Biotechnology review: mixing,
mass transfer and scale-up of polysaccharide fermentations,
Biotechnol. Bioeng., 20 (1978) 939–1001.
- Y. Kawase, M. Moo-Young, Mathematical models for design of
bioreactors: applications of Kolmogoroff’s theory of isotropic
turbulence, Chem. Eng. J., 43 (1990) B19–B41.
- S.J. Arjunwadkar, A.B. Sarvanan, P.R. Kulkarni, A.B. Pandit, Gas
liquid mass transfer in dual impeller bioreactor, Biochem. Eng.
J., 1 (1998) 99–106.
- P.R. Gogate, A.A.C.M. Beenackers, A.B. Pandit, Multipleimpeller
systems with a special emphasis on bioreactors: a
critical review, Biochem. Eng. J., 6 (2000) 109–144.
- P.M. Kilonzo, A. Margaritis, The effects of non-Newtonian
fermentation broth viscosity and small bubble segregation on
oxygen mass transfer in gas-lift bioreactors: a critical review,
Biochem. Eng. J., 17 (2004) 27–40.
- K.G. Clarke, L.D.C. Correia, Oxygen transfer in hydrocarbonaqueous
dispersions and its applicability to alkane bioprocesses:
a review, Biochem. Eng. J., 38 (2008) 405–429.
- F. Garcia-Ochoa, E. Gomez, Bioreactor scale-up and oxygen
transfer rate in microbial processes: an overview, Biotechnol.
Adv., 27 (2009) 153–176.
- R.H. Kadlec, R.L. Knight, Treatment Wetlands, CRC Press LLC,
Boca Raton, 1996.
- J.C.T. Vogerlaar, A. Klapwijk, J.B. Van Lier, W.H. Rulkens,
Temperature effects on the oxygen transfer rate between 20 and
55°C, Water Res., 34 (2000) 1037–1041.
- H. Taguchi, A.E. Humphrey, Dynamic measurement of the
volumetric oxygen transfer coefficient in fermentation systems,
J. Ferment. Technol., 44 (1966) 881–889.
- T. Zhu, F.J. Silora, Ammonium and Nitrate Removal in Vegetated
and Unvegetated Gravel Bed Microcosm Wetland, Proc. Fourth
International Conference Wetlands for Water Pollution Control,
ICWSI94, Secretariat, Guangzhou, China, 1994, pp. 335–366.
- J. Vymazal, Removal of nutrients in various types of constructed
wetlands, Sci. Total Environ., 380 (2007) 48–65.
- E.A. Paul, F.E. Clark, Soil Microbiology and Biochemistry, 2nd
ed., Academic Press, San Diego, California, 1996, 340 p.
- P. Cooper, G.D. Job, M.B. Green, Reed Beds and Constructed
Wetlands for Wastewater Treatment, Water Research Centre,
1996.
- D.R. Keeney, I.R. Fillery, G.P. Marx, Effect of temperature on the
gaseous nitrogen products of denitrification in a silt loam soil,
Soil Sci. Soc. Am. J., 43 (1979) 1124–1128.
- F.G. Foree, Reaeration and velocity prediction for small streams,
J. Environ. Eng. Div., 102 (1976) 937–952.
- R.E. Rathbun, D.W. Stephens, D.J. Shultz, D.Y. Tai, Laboratory
studies of gas tracers for reaeration, J. Environ. Eng. Div., 104
(1978) 215–229.
- R.B. Banks, G.B. Wickramanayake, B.N. Lohani, Effect of rain
on surface reaeration, J. Environ. Eng., 110 (1984) 1–14.
- K.A. Rainwater, E.R. Holley, Laboratory studies on hydrocarbon
tracer gases, J. Environ. Eng., 110 (1984) 27–41.
- R.K. Gelda, M.T. Auer, S.W. Effler, S.C. Chapra, M.L. Storey,
Determination of reaeration coefficients: whole-lake approach,
J. Environ. Eng., 122 (1996) 269–275.
- J.L. Huisman, N. Weber, W. Gujer, Reaeration in sewers, Water
Res., 38 (2004) 1089–1100.
- F.A. Rodríguez, J.M. Poyatos, P. Reboleiro-Rivas, F. Osorio,
H. Gonzalez-Lopez, E. Hontoria, Kinetic study and oxygen
transfer efficiency evaluation using respirometric methods
in a submerged membrane bioreactor using pure oxygen to
supply the aerobic conditions, Bioresour. Technol., 102 (2011)
6013–6018.