N. Abdel-raouf, A. A. Al-homaidan, and I. B. Ibraheem, Microalgae and wastewater treatment, Saudi J. Biol. Sci, vol.19, pp.257-275, 2012.

D. D. Adrian and T. G. Sanders, Oxygen sag equation for second-order BOD decay, Water Res, vol.32, pp.259-264, 1998.
DOI : 10.1016/s0043-1354(97)00259-5

D. D. Adrian and T. G. Sanders, Oxygen sag equation for half order BOD kinetics, J. Environ. Syst, vol.22, 1992.

P. Aguirre, E. Álvarez, I. Ferrer, and J. García, Treatment of piggery wastewater in experimental high rate algal ponds, Rev Latinoam Biotecnol Amb Algal, vol.2, pp.57-66, 2011.

R. A. Andersen, Algal Culturing Techniques, 2005.

B. Arheimer and H. B. Wittgren, Modelling nitrogen removal in potential wetlands at the catchment scale, Ecol. Eng, vol.19, pp.63-80, 2002.

M. Arnaldos, Y. Amerlinck, U. Rehman, T. Maere, S. Van-hoey et al., From the affinity constant to the half-saturation index: Understanding conventional modeling concepts in novel wastewater treatment processes, Water Res, vol.70, pp.458-470, 2015.

P. P. Assemany, M. L. Calijuri, E. Couto, M. H. Souza, N. C. Silva et al., Algae/bacteria consortium in high rate ponds: Influence of solar radiation on the phytoplankton community, Ecol. Eng, vol.77, pp.154-162, 2015.

Y. Azov and G. Shelef, Operation of high-rate oxidation ponds: theory and experiments, Water Res, vol.16, pp.1153-1160, 1982.

M. A. Babu, E. M. Hes, N. P. Van-der-steen, C. M. Hooijmans, and H. J. Gijzen, Nitrification rates of algal-bacterial biofilms in wastewater stabilization ponds under light and dark conditions, Ecol. Eng, vol.36, pp.1741-1746, 2010.


A. R. Badireddy, S. Chellam, P. L. Gassman, M. H. Engelhard, A. S. Lea et al., Role of extracellular polymeric substances in bioflocculation of activated sludge microorganisms under glucose-controlled conditions, Water Res, vol.44, pp.4505-4516, 2010.

L. Barsanti and P. Gualtieri, Algae: anatomy, biochemistry, and biotechnology, 2006.

D. J. Batstone, J. Keller, I. Angelidaki, S. V. Kalyuzhnyi, S. G. Pavlostathis et al., The IWA anaerobic digestion model no 1 (ADM1), Water Sci. Technol, vol.45, pp.65-73, 2002.

D. G. Baya, Etude de l'autofloculation dans un Chenal Algal à Haut Rendement, 2012.

Q. Béchet, A. Shilton, and B. Guieysse, Modeling the effects of light and temperature on algae growth: state of the art and critical assessment for productivity prediction during outdoor cultivation, Biotechnol. Adv, vol.31, pp.1648-1663, 2013.

W. Bell and R. Mitchell, Chemotactic and Growth Responses of Marine Bacteria to Algal Extracellular Products, Biol. Bull, vol.143, pp.265-277, 1972.

E. G. Bellinger and D. C. Sigee, Freshwater Algae: Identification, Enumeration and Use as Bioindicators, 2015.

B. C. Benson, M. T. Gutierrez-wing, and K. A. Rusch, The development of a mechanistic model to investigate the impacts of the light dynamics on algal productivity in a Hydraulically Integrated Serial Turbidostat Algal Reactor (HISTAR), Aquac. Eng, vol.36, pp.198-211, 2007.

O. Bernard, Hurdles and challenges for modelling and control of microalgae for CO2 mitigation and biofuel production, Special Issue:Selected Papers From Two Joint IFAC Conferences: 9th International Symposium on Dynamics and Control of Process Systems and the 11th International Symposium on Computer Applications in Biotechnology, pp.1378-1389, 1921.
URL : https://hal.archives-ouvertes.fr/hal-00848385


D. Bilanovic, M. Holland, J. Starosvetsky, and R. Armon, Co-cultivation of microalgae and nitrifiers for higher biomass production and better carbon capture, Bioresour. Technol, vol.220, pp.282-288, 2016.

J. P. Bitog, I. Lee, C. Lee, K. Kim, H. Hwang et al., Application of computational fluid dynamics for modeling and designing photobioreactors for microalgae production: a review, Comput. Electron. Agric, vol.76, pp.131-147, 2011.

S. Bordel, B. Guieysse, and R. Munoz, Mechanistic model for the reclamation of industrial wastewaters using algal-bacterial photobioreactors, Environ. Sci. Technol, vol.43, pp.3200-3207, 2009.

M. E. Borsuk and C. A. Stow, Bayesian parameter estimation in a mixed-order model of BOD decay, Water Res, vol.34, pp.346-348, 2000.

R. Bouterfas, M. Belkoura, and A. Dauta, The effects of irradiance and photoperiod on the growth rate of three freshwater green algae isolated from a eutrophic lake, Limnetica, vol.25, pp.647-656, 2006.

N. Broekhuizen, J. B. Park, G. B. Mcbride, and R. J. Craggs, Modification, calibration and verification of the IWA River Water Quality Model to simulate a pilot-scale high rate algal pond, Water Res, vol.46, pp.2911-2926, 2012.

H. O. Buhr and S. B. Miller, A dynamic model of the high-rate algal-bacterial wastewater treatment pond, Water Res, vol.17, pp.29-37, 1983.

N. G. Bulgakov and A. P. Levich, The nitrogen : Phosphorus ratio as a factor regulating phytoplankton community structure : Nutrient ratios, Arch. Für Hydrobiol, vol.146, pp.3-22, 1999.

T. Cai, S. Y. Park, and Y. Li, Nutrient recovery from wastewater streams by microalgae: Status and prospects, Renew. Sustain. Energy Rev, vol.19, pp.360-369, 2013.


J. J. Carroll, J. D. Slupsky, and A. E. Mather, The Solubility of Carbon Dioxide in Water at Low Pressure, J. Phys. Chem. Ref. Data, vol.20, pp.1201-1209, 1991.

A. Carucci, D. Dionisi, M. Majone, E. Rolle, and P. Smurra, Aerobic storage by activated sludge on real wastewater, Water Res, vol.35, pp.3833-3844, 2001.

D. Chiaramonti, M. Prussi, D. Casini, M. R. Tredici, L. Rodolfi et al., Review of energy balance in raceway ponds for microalgae cultivation: Re-thinking a traditional system is possible, Special Issue on Advances in sustainable biofuel production and use -XIX International Symposium on Alcohol Fuels -ISAF, vol.102, pp.101-111, 2013.

S. H. Cho, S. Ji, S. B. Hur, J. Bae, I. Park et al., Optimum temperature and salinity conditions for growth of green algae Chlorella ellipsoidea and Nannochloris oculata, Fish. Sci, vol.73, pp.1050-1056, 2007.

L. Christenson and R. Sims, Production and harvesting of microalgae for wastewater treatment, biofuels, and bioproducts, Biotechnol. Adv, vol.29, pp.686-702, 2011.


W. S. Cleveland, A. E. Freeny, and T. E. Graedel, The seasonal component of atmospheric CO2: Information from new approaches to the decomposition of seasonal time series, J. Geophys. Res. Oceans, vol.88, pp.10934-10946, 1983.

R. Coffey, S. Dorai-raj, V. O'flaherty, M. Cormican, and E. Cummins, Modeling of Pathogen Indicator Organisms in a Small-Scale Agricultural Catchment Using SWAT, Hum. Ecol. Risk Assess. Int. J, vol.19, pp.232-253, 2013.


J. J. Cole, Interactions Between Bacteria and Algae in Aquatic Ecosystems, Annu. Rev. Ecol. Syst, vol.13, pp.291-314, 1982.

R. Craggs, J. Park, D. Sutherland, and S. Heubeck, Economic construction and operation of hectare-scale wastewater treatment enhanced pond systems, J. Appl. Phycol. 1-10, 2015.

M. J. Crawley, The R Book, 2012.

P. A. Crill, The photosynthesis-light curve: A simple analog model, J. Theor. Biol, vol.64, pp.503-516, 1977.

R. W. Crites, E. J. Middlebrooks, and R. K. Bastian, Natural wastewater treatment systems, 2014.

N. J. Cromar and H. J. Fallowfield, Effect of nutrient loading and retention time on performance of high rate algal ponds, J. Appl. Phycol, vol.9, pp.301-309, 1997.

E. L. Cussler, Diffusion: Mass Transfer in Fluid Systems, 2009.

P. V. Danckwerts, Continuous flow systems: Distribution of residence times, Chem. Eng. Sci, vol.2, issue.53, pp.80001-80002, 1953.

P. Das, W. Lei, S. S. Aziz, and J. P. Obbard, Enhanced algae growth in both phototrophic and mixotrophic culture under blue light, Bioresour. Technol, vol.102, pp.3883-3887, 2011.

H. J. De-baar, von Liebig's law of the minimum and plankton ecology, pp.1899-1991, 1994.

, Prog. Oceanogr, vol.33, pp.90022-90023

I. De-godos, S. Blanco, P. A. García-encina, E. Becares, and R. Muñoz, Long-term operation of high rate algal ponds for the bioremediation of piggery wastewaters at high loading rates, Bioresour. Technol, vol.100, pp.4332-4339, 2009.

B. Decostere, S. W. Van-hulle, M. Duyck, T. Maere, H. Vervaeren et al., The use of a combined respirometric-titrimetric setup to assess the effect of environmental conditions on micro-algal growth rate, J. Chem. Technol. Biotechnol, vol.91, pp.248-256, 2014.

R. I. Dick and P. A. Vesilind, The Sludge Volume Index: What Is It?, J. Water Pollut. Control Fed, vol.41, pp.1285-1291, 1969.

Z. Ding, I. Bourven, G. Guibaud, E. D. Van-hullebusch, A. Panico et al., Role of extracellular polymeric substances (EPS) production in bioaggregation: application to wastewater treatment, Appl. Microbiol. Biotechnol, vol.99, pp.9883-9905, 2015.

D. Dionisi, M. Majone, R. Ramadori, and M. Beccari, The storage of acetate under anoxic conditions, Water Res, vol.35, pp.2661-2668, 2001.

D. Dionisi, V. Renzi, M. Majone, M. Beccari, and R. Ramadori, Storage of substrate mixtures by activated sludges under dynamic conditions in anoxic or aerobic environments, Water Res, vol.38, pp.2196-2206, 2004.

K. Dircks, M. Henze, M. C. Van-loosdrecht, H. Mosb\a-ek, and H. Aspegren, Storage and degradation of poly-?-hydroxybutyrate in activated sludge under aerobic conditions, Water Res, vol.35, pp.2277-2285, 2001.

M. R. Droop, Some Thoughts on Nutrient Limitation in Algae, J. Phycol, vol.9, pp.264-272, 1973.

M. R. Droop, Vitamin B12 and marine ecology, Helgoländer Wiss. Meeresunters, vol.20, pp.629-636, 1970.
DOI : 10.1007/bf01609935

F. Durst, Fluid Mechanics: An Introduction to the Theory of Fluid Flows, 2008.

P. H. Eilers and J. C. Peeters, A model for the relationship between light intensity and the rate of photosynthesis in phytoplankton, Ecol. Model, vol.42, pp.90057-90066, 1988.

B. El-hamouri, J. Jellal, H. Outabiht, B. Nebri, K. Khallayoune et al., The performance of a high-rate algal pond in the moroccan climate, Water Sci. Technol, pp.493-500, 1995.

B. El-hamouri, A. Rami, and J. Vasel, The reasons behind the performance superiority of a high rate algal pond over three facultative ponds in series, Water Sci. Technol, vol.48, pp.269-276, 2003.

H. El-ouarghi, B. E. Boumansour, O. Dufayt, B. El-hamouri, and J. L. Vasel, Hydrodynamics and oxygen balance in a high-rate algal pond, Water Sci. Technol, vol.42, pp.349-356, 2000.

K. V. Ellis and P. C. Rodrigues, Verification of two design approaches for stabilization ponds, Water Res, vol.27, pp.1447-1454, 1993.

R. W. Eppley, Temperature and phytoplankton growth in the sea, Fish Bull, vol.70, pp.1063-1085, 1972.

R. A. Evans, N. J. Cromar, and H. J. Fallowfield, Performance of a pilot-scale high rate algal pond system treating abattoir wastewater in rural South Australia: nitrification and denitrification, Water Sci. Technol, vol.51, pp.117-124, 2005.

P. G. Falkowski, Primary productivity in the sea. Springer. FAO, 1992. Wastewater treatment, 1980.

T. Ferenci, Growth of bacterial cultures' 50 years on: towards an uncertainty principle instead of constants in bacterial growth kinetics, Res. Microbiol, vol.150, pp.431-438, 1999.

T. M. Flegal and E. D. Schroeder, Temperature Effects on BOD Stoichiometry and Oxygen Uptake Rate, J. Water Pollut. Control Fed, vol.48, pp.2700-2707, 1976.

H. S. Fogler, Elements of Chemical Reaction Engineering, 2006.

H. S. Fogler, Chapter 13: Distributions of Residence Times for Chemical Reactors, in: Elements of Chemical Reaction Engineering, 2006.

H. S. Fogler, Chapter 14: Models for Nonideal Reactors, in: Elements of Chemical Reaction Engineering, 2006.

N. Ganidi, S. Tyrrel, and E. Cartmell, Anaerobic digestion foaming causes -A review, Bioresour. Technol, vol.100, pp.5546-5554, 2009.

J. García, B. F. Green, T. Lundquist, R. Mujeriego, M. Hernández-mariné et al., Long term diurnal variations in contaminant removal in high rate ponds treating urban wastewater, Bioresour. Technol, vol.97, pp.1709-1715, 2006.

J. García, M. Hernández-mariné, and R. Mujeriego, Analysis of key variables controlling phosphorus removal in high rate oxidation ponds provided with clarifiers, Water SA, vol.28, p.55, 2002.

J. Garcia, R. Mujeriego, and M. Hernandez-marine, High rate algal pond operating strategies for urban wastewater nitrogen removal, J. Appl. Phycol, vol.12, pp.331-339, 2000.

F. Garcia-ochoa and E. Gomez, Bioreactor scale-up and oxygen transfer rate in microbial processes: An overview, Biotechnol. Adv, vol.27, pp.153-176, 2009.
DOI : 10.1016/j.biotechadv.2008.10.006


M. H. Gerardi, Nitrification and Denitrification in the Activated Sludge Process, 2003.
DOI : 10.1002/0471216682

URL : https://onlinelibrary.wiley.com/doi/pdf/10.1002/0471216682.fmatter

A. L. Gonçalves, M. Simões, and J. C. Pires, The effect of light supply on microalgal growth, CO2 uptake and nutrient removal from wastewater, Energy Convers. Manag, vol.85, pp.530-536, 2014.

C. González-fernández, B. Sialve, N. Bernet, and J. Steyer, Impact of microalgae characteristics on their conversion to biofuel. Part II: Focus on biomethane production, Biofuels Bioprod. Biorefining, vol.6, pp.205-218, 2012.

C. L. Grady, G. T. Daigger, N. G. Love, and C. D. Filipe, Biological wastewater treatment, 2011.

E. M. Grima, F. A. Fernández, F. G. Camacho, and Y. Chisti, Photobioreactors: light regime, mass transfer, and scaleup, J. Biotechnol, vol.70, pp.78-82, 1999.

J. U. Grobbelaar, Turbulence in mass algal cultures and the role of light/dark fluctuations, J. Appl. Phycol, vol.6, pp.331-335, 1994.

J. U. Grobbelaar, The influence of light/dark cycles in mixed algal cultures on their productivity, Bioresour. Technol, vol.38, pp.189-194, 1991.

, , p.90153

J. U. Grobbelaar, C. J. Soeder, and E. Stengel, Modeling algal productivity in large outdoor cultures and waste treatment systems, Biomass, vol.21, pp.297-314, 1990.

, , p.90079

E. Grönlund, J. Hanaeus, E. Johansson, and S. Falk, Performance of an Experimental Wastewater Treatment High-Rate Algal Pond in Subarctic Climate, Water Environ. Res, vol.82, pp.830-839, 2010.

H. Grossart and M. Simon, Interactions of planktonic algae and bacteria: effects on algal growth and organic matter dynamics, Aquat. Microb. Ecol, vol.47, 2007.

W. Gujer, M. Henze, T. Mino, M. Loosdrecht, and . Van, Modelling and microbiology of activated sludge processes 39, Water Sci. Technol, pp.785-794, 1999.

G. Gutzeit, D. Lorch, A. Weber, M. Engels, and U. Neis, Bioflocculent algal-bacterial biomass improves low-cost wastewater treatment, Water Science and Technology : A Journal of the International Association on Water Pollution Research, pp.9-18, 2005.

H. Hadiyanto, S. Elmore, T. Van-gerven, and A. Stankiewicz, Hydrodynamic evaluations in high rate algae pond (HRAP) design, Chem. Eng. J, vol.217, pp.231-239, 2013.

H. Hauduc, S. Gillot, L. Rieger, T. Ohtsuki, A. Shaw et al., Activated sludge modelling in practice: an international survey, Water Sci. Technol. J. Int. Assoc. Water Pollut. Res, vol.60, pp.1943-1951, 2009.

M. Henze, Biological Wastewater Treatment: Principles, Modelling and Design, 2008.

M. Henze, R. Dupont, P. Grau, and A. De-la-sota, Rising sludge in secondary settlers due to denitrification, Water Res, vol.27, pp.231-236, 1993.

M. Henze, C. P. Grady, W. Gujer, G. V. Marais, and T. Matsuo, , 1987.

M. Henze, W. Gujer, T. Mino, T. Matsuo, M. C. Wentzel et al., Modelling and microbiology of activated sludge processes, Water Sci. Technol, vol.39, pp.165-182, 1999.

, , pp.829-833

M. Henze, W. Gujer, T. Mino, and M. C. Van-loosdrecht, Activated sludge models ASM1, ASM2, ASM2d and ASM3, 2000.

J. Hewitt, J. V. Hunter, and D. Lockwood, A multiorder approach to bod kinetics, Water Res, vol.13, pp.90213-90219, 1979.

R. Hreiz, B. Sialve, J. Morchain, R. Escudié, J. Steyer et al., Experimental and numerical investigation of hydrodynamics in raceway reactors used for algaculture, Chem. Eng. J, vol.250, pp.230-239, 2014.

J. Huisman, H. C. Matthijs, P. M. Visser, H. Balke, C. A. Sigon et al., Principles of the light-limited chemostat: theory and ecological applications, Antonie Van Leeuwenhoek, vol.81, pp.117-133, 2002.


I. Iacopozzi, V. Innocenti, S. Marsili-libelli, and E. Giusti, A modified Activated Sludge Model No. 3 (ASM3) with two-step nitrification-denitrification, Environ. Model. Softw, vol.22, pp.847-861, 2007.

D. E. James, Culturing algae, 2012.

S. C. James and V. Boriah, Modeling algae growth in an open-channel raceway, J. Comput. Biol, vol.17, pp.895-906, 2010.

H. Jupsin, E. Praet, and J. Vasel, Dynamic mathematical model of high rate algal ponds (HRAP), Water Sci. Technol, vol.48, pp.197-204, 2003.

R. H. Kadlec, The inadequacy of first-order treatment wetland models, Ecol. Eng, vol.15, pp.39-46, 2000.

R. H. Kadlec, Detention and mixing in free water wetlands, Ecol. Eng, vol.3, pp.7-7, 1994.

G. O. Kirst, Salinity Tolerance of Eukaryotic Marine Algae, Annu. Rev. Plant Physiol. Plant Mol. Biol, vol.41, pp.21-53, 1989.

A. Kouzuma and K. Watanabe, Exploring the potential of algae/bacteria interactions, Curr. Opin. Biotechnol, vol.33, pp.125-129, 2015.

P. Krebs, A. I. Stamou, J. L. García-heras, and W. Rodi, Water Quality International '96 Part 3: Modelling of Activated Sludge Processes; Microorganisms in Activated Sludge and Biofilm Processes; Anareobic Biological Treatment, Water Sci. Technol, vol.34, pp.622-623, 1996.

C. Krishna and M. C. Van-loosdrecht, Effect of temperature on storage polymers and settleability of activated sludge, Water Res, vol.33, pp.2374-2382, 1999.

J. Kromkamp and M. Limbeek, Effect of short-term variation in irradiance on light harvesting and photosynthesis of the marine diatom Skeletonema costatum: a laboratory study simulating vertical mixing, Microbiology, vol.139, pp.2277-2284, 1993.


K. Kumar, S. K. Mishra, A. Shrivastav, M. S. Park, and J. Yang, Recent trends in the mass cultivation of algae in raceway ponds, Renew. Sustain. Energy Rev, vol.51, pp.875-885, 2015.

L. S. Lasdon, R. L. Fox, and M. W. Ratner, Nonlinear optimization using the generalized reduced gradient method, Rev. Fr. Autom. Inform. Rech. Opérationnelle Rech. Opérationnelle, vol.3, pp.73-103, 1974.

J. Laurent, P. Bois, M. Nuel, and A. Wanko, Systemic models of full-scale Surface Flow Treatment Wetlands: Determination by application of fluorescent tracers, Chem. Eng. J, vol.264, pp.389-398, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01410303

P. Lavens and P. Sorgeloos, Manual on the production and use of live food for aquaculture. Food and Agriculture Organization (FAO), 1996.

R. J. Lawton, A. J. Cole, D. A. Roberts, N. A. Paul, and R. De-nys, Wastewater and Algae; opportunities, challenges and long term sustainability 24, Algal Res, pp.486-491, 2017.


L. Moullec, Y. Gentric, C. Potier, O. Leclerc, and J. P. , Comparison of systemic, compartmental and CFD modelling approaches: Application to the simulation of a biological reactor of wastewater treatment, 20th International Symposium in Chemical Reaction Engineering-Green Chemical Reaction Engineering for a Sustainable Future, vol.65, pp.343-350, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00432294

L. Moullec, Y. Potier, O. Gentric, C. Pierre-leclerc, and J. , Flow field and residence time distribution simulation of a cross-flow gas-liquid wastewater treatment reactor using CFD, Chem. Eng. Sci, vol.63, pp.2436-2449, 2008.

C. S. Lee, S. Lee, S. Ko, H. Oh, and C. Ahn, Effects of photoperiod on nutrient removal, biomass production, and algal-bacterial population dynamics in lab-scale photobioreactors treating municipal wastewater, Water Res, vol.68, pp.680-691, 2015.

E. Lee, M. Jalalizadeh, and Q. Zhang, Growth kinetic models for microalgae cultivation: A review, Algal Res, vol.12, pp.497-512, 2015.
DOI : 10.1016/j.algal.2015.10.004

O. Levenspiel, Chemical reaction engineering, 1999.

W. K. Lewis and W. G. Whitman, Principles of Gas Absorption, Ind. Eng. Chem, vol.16, pp.1215-1220, 1924.
DOI : 10.1021/ie50180a002

B. Q. Liao, D. G. Allen, I. G. Droppo, G. G. Leppard, and S. N. Liss, Surface properties of sludge and their role in bioflocculation and settleability, Water Res, vol.35, pp.277-280, 2001.

B. Q. Liao, D. G. Allen, G. G. Leppard, I. G. Droppo, and S. N. Liss, Interparticle Interactions Affecting the Stability of Sludge Flocs, J. Colloid Interface Sci, vol.249, pp.372-380, 2002.

K. Liffman, D. A. Paterson, P. Liovic, and P. Bandopadhayay, Comparing the energy efficiency of different high rate algal raceway pond designs using computational fluid dynamics, Chem. Eng. Res. Des, vol.91, pp.221-226, 2013.


M. C. Loosdrecht, . Van, C. M. Hooijmans, D. Brdjanovic, and J. J. Heijnen, Biological phosphate removal processes, Appl. Microbiol. Biotechnol, vol.48, pp.289-296, 1997.

S. K. Lower, Carbonate equilibria in natural waters, vol.544, 1999.

D. D. Mara and H. W. Pearson, Design manual for waste stabilization ponds in Mediterranean countries, Lagoon Technology International, 1998.

G. V. Marais and V. A. Shaw, A rational theory for the design of sewage stabilization ponds in Central and South Africa, South Afr. Inst. Civ. Eng, vol.3, pp.205-227, 1961.

T. M. Mata, A. A. Martins, and N. S. Caetano, Microalgae for biodiesel production and other applications: A review, Renew. Sustain. Energy Rev, vol.14, pp.217-232, 2010.

V. Matamoros, R. Gutiérrez, I. Ferrer, J. García, and J. M. Bayona, Capability of microalgae-based wastewater treatment systems to remove emerging organic contaminants: a pilot-scale study, J. Hazard. Mater, vol.288, pp.34-42, 2015.


M. Medina and U. Neis, Symbiotic algal bacterial wastewater treatment: Effect of food to microorganism ratio and hydraulic retention time on the process performance, Water Sci. Technol. J. Int. Assoc. Water Pollut. Res, vol.55, pp.165-71, 2007.


S. K. Mehta and J. P. Gaur, Use of algae for removing heavy metal ions from wastewater: progress and prospects, Crit. Rev. Biotechnol, vol.25, pp.113-152, 2005.

J. L. Mendoza, M. R. Granados, I. De-godos, F. G. Acién, E. Molina et al., Fluid-dynamic characterization of real-scale raceway reactors for microalgae production, Biomass Bioenergy, vol.54, pp.267-275, 2013.


J. L. Mendoza, M. R. Granados, I. De-godos, F. G. Acién, E. Molina et al., Oxygen transfer and evolution in microalgal culture in open raceways, Bioresour. Technol, vol.137, pp.188-195, 2013.
DOI : 10.1016/j.biortech.2013.03.127

E. Metaxa, G. Deviller, P. Pagand, C. Alliaume, C. Casellas et al., High rate algal pond treatment for water reuse in a marine fish recirculation system: Water purification and fish health, Aquaculture, vol.252, pp.92-101, 2006.

C. Michael, M. Del-ninno, M. Gross, and Z. Wen, Use of wavelength-selective optical light filters for enhanced microalgal growth in different algal cultivation systems, Bioresour. Technol, vol.179, pp.473-482, 2015.

J. J. Milledge and S. Heaven, A review of the harvesting of micro-algae for biofuel production, Rev. Environ. Sci. Biotechnol, vol.12, pp.165-178, 2012.

H. O. Miller and S. B. Buhr, Mixing characteristics of a high-rate algae pond, Water SA, vol.7, pp.8-15, 1981.

T. Mino, Microbial selection of polyphosphate-accumulating bacteria in activated sludge wastewater treatment processes for enhanced biological phosphate removal, Biochem. CC BIOKHIMIIA, vol.65, pp.341-348, 2000.

F. Mitteault and B. Vallet, Arrêté du 21 juillet 2015 relatif aux systèmes d'assainissement collectif et aux installations d'assainissement non collectif, à l'exception des installations d'assainissement non collectif recevant une charge brute de pollution organique, 2015.

M. Moazami-goudarzi and B. Colman, Changes in carbon uptake mechanisms in two green marine algae by reduced seawater pH, J. Exp. Mar. Biol. Ecol, vol.413, pp.94-99, 2012.

J. Monod, The growth of bacterial cultures, Annu. Rev. Microbiol, vol.3, pp.371-394, 1949.

V. Montemezzani, I. C. Duggan, I. D. Hogg, and R. J. Craggs, Screening of potential zooplankton control technologies for wastewater treatment High Rate Algal Ponds, Algal Res, vol.22, pp.1-13, 2017.

V. Montemezzani, I. C. Duggan, I. D. Hogg, and R. J. Craggs, Zooplankton community influence on seasonal performance and microalgal dominance in wastewater treatment High Rate Algal Ponds, Algal Res, vol.17, pp.168-184, 2016.


V. Montemezzani, I. C. Duggan, I. D. Hogg, and R. J. Craggs, A review of potential methods for zooplankton control in wastewater treatment High Rate Algal Ponds and algal production raceways, Algal Res, vol.11, pp.211-226, 2015.

D. N. Moriasi, J. G. Arnold, M. W. Van-liew, R. L. Bingner, R. D. Harmel et al., Model Evaluation Guidelines for Systematic Quantification of Accuracy in Watershed Simulations, Trans. ASABE, vol.50, pp.885-900, 2007.

J. V. Moroney and R. A. Ynalvez, Proposed Carbon Dioxide Concentrating Mechanism in Chlamydomonas reinhardtii, Eukaryot. Cell, vol.6, pp.1251-1259, 2007.


R. C. Morrow, LED lighting in horticulture, HortScience, vol.43, pp.1947-1950, 2008.

R. Muñoz, M. T. Alvarez, A. Muñoz, E. Terrazas, B. Guieysse et al., Sequential removal of heavy metals ions and organic pollutants using an algal-bacterial consortium, Chemosphere, vol.63, pp.903-911, 2006.


R. Muñoz and B. Guieysse, Algal-bacterial processes for the treatment of hazardous contaminants: A review, Water Res, vol.40, pp.2799-2815, 2006.


R. Muñoz, M. Jacinto, B. Guieysse, and B. Mattiasson, Combined carbon and nitrogen removal from acetonitrile using algal-bacterial bioreactors, Appl. Microbiol. Biotechnol, vol.67, pp.699-707, 2005.

T. Nameche and J. L. Vasel, Hydrodynamic studies and modelization for aerated lagoons and waste stabilization ponds, Water Res, vol.32, issue.98, pp.91-99, 1998.

E. K. Nauha and V. Alopaeus, Modeling outdoors algal cultivation with compartmental approach, Chem. Eng. J, vol.259, pp.945-960, 2015.

E. K. Nauha and V. Alopaeus, Modeling method for combining fluid dynamics and algal growth in a bubble column photobioreactor, Chem. Eng. J, vol.229, pp.559-568, 2013.

J. Noüe, G. Laliberté, and D. Proulx, Algae and waste water, J. Appl. Phycol, vol.4, pp.247-254, 1992.

Y. Nurdogan and W. J. Oswald, Enhanced nutrient removal in high-rate ponds, Water Sci. Technol, vol.31, pp.33-43, 1995.

, OECD GUIDELINE FOR THE TESTING OF CHEMICALS. Simulation TestAerobic Sewage Treatment: 303 A: Activated Sludge Units -303 B: Biofilms, 2001.

E. O'flaherty and N. F. Gray, A comparative analysis of the characteristics of a range of real and synthetic wastewaters, Environ. Sci. Pollut. Res, vol.20, pp.8813-8830, 2013.

W. J. Oswald and H. B. Gotaas, Photosynthesis in sewage treatment, Trans Am Soc Civ Eng, vol.122, pp.73-105, 1957.

D. F. Paris, W. C. Steen, G. L. Baughman, and J. T. Barnett, Second-order model to predict microbial degradation of organic compounds in natural waters, Appl. Environ. Microbiol, vol.41, pp.603-609, 1981.

J. Park and R. Craggs, Wastewater treatment and algal production in high rate algal ponds with carbon dioxide addition, 2010.

J. B. Park, R. J. Craggs, and A. N. Shilton, Enhancing biomass energy yield from pilot-scale high rate algal ponds with recycling, Water Res, vol.47, pp.4422-4432, 2013.

J. B. Park, R. J. Craggs, and A. N. Shilton, Recycling algae to improve species control and harvest efficiency from a high rate algal pond, Water Res, vol.45, pp.6637-6649, 2011.

J. B. Park, R. J. Craggs, and A. N. Shilton, Wastewater treatment high rate algal ponds for biofuel production, Special Issue: Biofuels -II: Algal Biofuels and Microbial Fuel Cells, vol.102, pp.35-42, 2010.

L. A. Pham, J. Laurent, P. Bois, and A. Wanko, Impacts of operational conditions on oxygen transfer rate, mixing characteristics and residence time distribution in a pilot scale high rate algal pond, The IWA S2Small2017 Conference on Small Water & Wastewater Systems and Resources Oriented Sanitation. IWA, 2017.

E. B. Phelps and H. W. Streeter, A Study of the Pollution and Natural Purification of the Ohio River, Public Health Bulletin. United States Public Health Service, issue.146, 1925.

T. L. Philichi, The Effect of Dissolved Oxygen Probe Lag Upon Oxygen Transfer Parameter Estimation (Msc thesis), 1987.

B. Picot, H. El-halouani, C. Casellas, S. Moersidik, and J. Bontoux, Nutrient removal by high rate pond system in a Mediterranean climate (France), Water Sci. Technol, vol.23, pp.1535-1541, 1991.

A. J. Pieterse and A. Cloot, Algal cells and coagulation, flocculation and sedimentation processes, The Role of Particle Characteristics in Separation ProcessesSelected Proceedings of the IAWQ/IWSA Joint Specialist Group on Particle Separation, 4th International Conference on The Role of Particle Characteristics in Separation Processes, vol.36, pp.427-434, 1997.

J. K. Pittman, A. P. Dean, and O. Osundeko, The potential of sustainable algal biofuel production using wastewater resources, Bioresour. Technol, vol.102, pp.17-25, 2011.

E. Posadas, M. Del-mar-morales, C. Gomez, F. G. Acién, and R. Muñoz, Influence of pH and CO 2 source on the performance of microalgae-based secondary domestic wastewater treatment in outdoors pilot raceways, Chem. Eng. J, vol.265, pp.239-248, 2015.

O. Potier, J. Leclerc, and M. Pons, Influence of geometrical and operational parameters on the axial dispersion in an aerated channel reactor, Water Res, vol.39, pp.4454-4462, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00021636

N. Powell, A. Shilton, Y. Chisti, and S. Pratt, Towards a luxury uptake process via microalgae -Defining the polyphosphate dynamics, Water Res, vol.43, pp.4207-4213, 2009.

N. Powell, A. Shilton, S. Pratt, and Y. Chisti, Luxury uptake of phosphorus by microalgae in full-scale waste stabilisation ponds, Water Sci. Technol. J. Int. Assoc. Water Pollut. Res, vol.63, pp.704-709, 2011.

R. J. Powell and R. T. Hill, Mechanism of Algal Aggregation by Bacillus sp, Strain RP1137. Appl. Environ. Microbiol, vol.80, pp.4042-4050, 2014.

N. Pragya, K. K. Pandey, and P. K. Sahoo, A review on harvesting, oil extraction and biofuels production technologies from microalgae, Renew. Sustain. Energy Rev, vol.24, pp.159-171, 2013.

I. Priyadarshani and B. Rath, Commercial and industrial applications of micro algae-A review, J Algal Biomass Utln, vol.3, pp.89-100, 2012.

. R-core-team, R: A language and environment for statistical computing. R Foundation for Statistical Computing, 2016.

M. Ras, J. Steyer, and O. Bernard, Temperature effect on microalgae: a crucial factor for outdoor production, Rev. Environ. Sci. Biotechnol, vol.12, pp.153-164, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00852286


N. W. Rasdi and J. G. Qin, Effect of N:P ratio on growth and chemical composition of Nannochloropsis oculata and Tisochrysis lutea, J. Appl. Phycol. 1-10, 2014.

J. A. Raven and A. M. Johnston, Mechanisms of inorganic-carbon acquisition in marine phytoplankton and their implications for the use of other resources, Limnol. Oceanogr, vol.36, pp.1701-1714, 1991.

I. Rawat, R. Ranjith-kumar, T. Mutanda, and F. Bux, Dual role of microalgae: Phycoremediation of domestic wastewater and biomass production for sustainable biofuels production, Appl. Energy, Special Issue of Energy from algae: Current status and future trends, vol.88, pp.3411-3424, 2011.

D. S. Reay, D. B. Nedwell, J. Priddle, and J. C. Ellis-evans, Temperature dependence of inorganic nitrogen uptake: reduced affinity for nitrate at suboptimal temperatures in both algae and bacteria, Appl. Environ. Microbiol, vol.65, pp.2577-2584, 1999.

P. Reichert, AQUASIM-a tool for simulation and data analysis of aquatic systems, Water Sci. Technol, vol.30, pp.21-30, 1994.

P. Reichert, D. Borchardt, M. Henze, W. Rauch, P. Shanahan et al., River water quality model no. 1 (RWQM1): II. Biochemical process equations, Water Sci. Technol, vol.43, pp.11-30, 2001.

A. Richmond, Handbook of Microalgal Culture: Biotechnology and Applied Phycology, 2008.

L. Rieger, S. Gillot, G. Langergraber, T. Ohtsuki, A. Shaw et al., Guidelines for Using Activated Sludge Models, Water Intell. Online, Scientific and Technical Report Series, vol.11, 2012.
DOI : 10.2166/9781780401164

R. D. Robarts and T. Zohary, Temperature effects on photosynthetic capacity, respiration, and growth rates of bloom-forming cyanobacteria, N. Z. J. Mar. Freshw. Res, vol.21, pp.391-399, 1987.

F. P. Roudsari, M. R. Mehrnia, A. Asadi, Z. Moayedi, and R. Ranjbar, Effect of microalgae/activated sludge ratio on cooperative treatment of anaerobic effluent of municipal wastewater, Appl. Biochem. Biotechnol, vol.172, pp.131-140, 2014.


E. T. Safonova, I. A. Dmitrieva, and K. V. Kvitko, The interaction of algae with alcanotrophic bacteria in black oil decomposition, Resour. Conserv. Recycl, vol.27, pp.193-201, 1999.

M. A. Saito, T. J. Goepfert, and J. T. Ritt, Some thoughts on the concept of colimitation: three definitions and the importance of bioavailability, Limnol. Oceanogr, vol.53, pp.276-290, 2008.

S. Salim, R. Bosma, M. H. Vermuë, and R. H. Wijffels, Harvesting of microalgae by bioflocculation, J. Appl. Phycol, vol.23, pp.849-855, 2010.

S. Salim, N. R. Kosterink, N. T. Wacka, M. H. Vermuë, and R. H. Wijffels, Mechanism behind autoflocculation of unicellular green microalgae Ettlia texensis, J. Biotechnol, vol.174, pp.34-38, 2014.

C. Sawatdeenarunat, D. Nguyen, K. C. Surendra, S. Shrestha, K. Rajendran et al., Anaerobic biorefinery: Current status, challenges, and opportunities, Bioresour. Technol, vol.215, pp.304-313, 2016.
DOI : 10.1016/j.biortech.2016.03.074

S. Scherer and P. Böger, Respiration of blue-green algae in the light, Arch. Microbiol, vol.132, pp.329-332

R. J. Seviour, T. Mino, and M. Onuki, The microbiology of biological phosphorus removal in activated sludge systems, FEMS Microbiol. Rev, vol.27, pp.99-127, 2003.

, , pp.21-25

P. Shi, H. Shen, W. Wang, W. Chen, and P. Xie, The relationship between light intensity and nutrient uptake kinetics in six freshwater diatoms, J. Environ. Sci, vol.34, pp.28-36, 2015.

M. D. Short, N. J. Cromar, and H. J. Fallowfield, Hydrodynamic performance of pilot-scale duckweed, algal-based, rock filter and attached-growth media reactors used for waste stabilisation pond research, Ecol. Eng, vol.36, pp.1700-1708, 2010.


B. Sialve, A. Gales, J. Hamelin, N. Wery, and J. Steyer, Bioaerosol emissions from open microalgal processes and their potential environmental impacts: what can be learned from natural and anthropogenic aquatic environments?, Curr. Opin. Biotechnol, vol.33, pp.279-286, 2015.

H. Siegrist, P. Krebs, R. Bühler, I. Purtschert, C. Rock et al., Modelling and Control of Activated Sludge Processes 31, Water Sci. Technol, pp.205-214, 1995.

D. Simionato, S. Basso, G. M. Giacometti, and T. Morosinotto, Optimization of light use efficiency for biofuel production in algae, Biophys. Chem., XXI SIBPA Meeting, vol.182, pp.71-78, 2013.

S. P. Singh and P. Singh, Effect of temperature and light on the growth of algae species: A review, Renew. Sustain. Energy Rev, vol.50, pp.431-444, 2015.


A. R. Sirajunnisa and D. Surendhiran, Algae-A quintessential and positive resource of bioethanol production: A comprehensive review, Renew. Sustain. Energy Rev, vol.66, pp.248-267, 2016.

R. G. Smith and R. G. Bidwell, Mechanism of Photosynthetic Carbon Dioxide Uptake by the Red Macroalga, Chondrus crispus, Plant Physiol, vol.89, pp.93-99, 1989.


A. Solimeno and J. García, Microalgae-bacteria models evolution: From microalgae steadystate to integrated microalgae-bacteria wastewater treatment models -A comparative review, Sci. Total Environ, pp.1136-1150, 2017.


A. Solimeno, L. Parker, T. Lundquist, and J. García, Integral microalgae-bacteria model (BIO_ALGAE): Application to wastewater high rate algal ponds, Sci. Total Environ. 601, vol.602, pp.646-657, 2017.

A. Solimeno, R. Samsó, and J. García, Parameter sensitivity analysis of a mechanistic model to simulate microalgae growth, Algal Res, vol.15, pp.217-223, 2016.


A. Solimeno, R. Samsó, E. Uggetti, B. Sialve, J. Steyer et al., New mechanistic model to simulate microalgae growth, Algal Res, vol.12, pp.350-358, 2015.

M. Spérandio and E. Paul, Determination of carbon dioxide evolution rate using on-line gas analysis during dynamic biodegradation experiments, Biotechnol. Bioeng, vol.53, pp.243-252, 1997.

M. V. Sperling, Basic Principles of Wastewater Treatment, 2007.

D. T. Sponza, Investigation of extracellular polymer substances (EPS) and physicochemical properties of different activated sludge flocs under steady-state conditions, Enzyme Microb. Technol, vol.32, issue.02, pp.309-314, 2003.

C. A. Stow, L. J. Jackson, and S. R. Carpenter, A Mixed-Order Model to Assess Contaminant Declines, Environ. Monit. Assess, vol.55, pp.435-444, 1999.


A. Stricker, Application de la modelisation a l'etude du traitement de l'azote par boues activees en aeration prolongee : comparaison des performances en temps sec et en temps de pluie, 2000.

Y. Su, A. Mennerich, and B. Urban, Synergistic cooperation between wastewater-born algae and activated sludge for wastewater treatment: Influence of algae and sludge inoculation ratios, Bioresour. Technol, vol.105, pp.67-73, 2012.

Y. Su, A. Mennerich, and B. Urban, Municipal wastewater treatment and biomass accumulation with a wastewater-born and settleable algal-bacterial culture, Water Res, vol.45, pp.3351-3358, 2011.

D. F. Sültemeyer, H. P. Fock, and D. T. Canvin, Active uptake of inorganic carbon by Chlamydomonas reinhardtii: evidence for simultaneous transport of HCO3? and CO2 and characterization of active CO2 transport, Can. J. Bot, vol.69, pp.995-1002, 1991.

D. L. Sutherland, C. Howard-williams, M. H. Turnbull, P. A. Broady, and R. J. Craggs, Enhancing microalgal photosynthesis and productivity in wastewater treatment high rate algal ponds for biofuel production, Advances in biofuels and chemicals from algae, vol.184, pp.222-229, 2015.

D. L. Sutherland, M. H. Turnbull, P. A. Broady, and R. J. Craggs, Effects of two different nutrient loads on microalgal production, nutrient removal and photosynthetic efficiency in pilot-scale wastewater high rate algal ponds, Water Res, vol.66, pp.53-62, 2014.

D. L. Sutherland, M. H. Turnbull, and R. J. Craggs, Environmental drivers that influence microalgal species in fullscale wastewater treatment high rate algal ponds, Water Res, vol.124, pp.504-512, 2017.
DOI : 10.1016/j.watres.2017.08.012

D. L. Sutherland, M. H. Turnbull, and R. J. Craggs, Increased pond depth improves algal productivity and nutrient removal in wastewater treatment high rate algal ponds, Water Res, vol.53, pp.271-281, 2014.
DOI : 10.1016/j.watres.2014.01.025

G. E. Symons and B. Morey, The Effect of Drying Time on the Determination of Solids in Sewage and Sewage Sludges, Sew. Works J, vol.13, pp.936-939, 1941.

H. Tamiya, E. Hase, K. Shibata, A. Mituya, T. Iwamura et al., Kinetics of growth of Chlorella, with special reference to its dependence on quantity of available light and on temperature, Algal Cult. Lab. Pilot Plant, pp.205-232, 1953.

G. Tchobanoglous, F. Burton, and H. D. Stensel, Wastewater Engineering: Treatment and Reuse, 2002.

D. Thirumurthi, Design Criteria for Waste Stabilization Ponds, J. Water Pollut. Control Fed, vol.46, pp.2094-2106, 1974.

J. J. Torres, A. Soler, J. Sáez, and J. F. Ortu?o, Hydraulic performance of a deep wastewater stabilization pond, Water Res, vol.31, issue.96, p.293, 1997.

G. Torzillo, A. Sacchi, and R. Materassi, Temperature as an important factor affecting productivity and night biomass loss in Spirulina platensis grown outdoors in tubular photobioreactors, Bioresour. Technol, vol.38, pp.90137-90146, 1991.

N. Uduman, Y. Qi, M. K. Danquah, G. M. Forde, and A. Hoadley, Dewatering of microalgal cultures: a major bottleneck to algae-based fuels, J. Renew. Sustain. Energy, vol.2, p.12701, 2010.

D. Uhlmann, Bod removal rates of waste stabilization ponds as a function of loading, retention time, temperature and hydraulic flow pattern, Water Res, vol.13, pp.90092-90099, 1979.

, Water, UNESCO, 2015.

V. V. Unnithan, A. Unc, and G. B. Smith, Mini-review: A priori considerations for bacteriaalgae interactions in algal biofuel systems receiving municipal wastewaters, Algal Res., Progress and Perspectives on Microalgal Mass Culture, vol.4, pp.35-40, 2014.


S. K. Upadhyay, Chemical Kinetics and Reaction Dynamics, 2006.

V. Urbain, J. C. Block, and J. Manem, Bioflocculation in activated sludge: an analytic approach, Water Res, vol.27, pp.829-838, 1993.

J. M. Valigore, P. A. Gostomski, D. G. Wareham, and A. D. O'sullivan, Effects of hydraulic and solids retention times on productivity and settleability of microbial (microalgalbacterial) biomass grown on primary treated wastewater as a biofuel feedstock, Water Res, vol.46, pp.2957-2964, 2012.

S. Van-den-hende, V. Beelen, G. Bore, N. Boon, and H. Vervaeren, Up-scaling aquaculture wastewater treatment by microalgal bacterial flocs: From lab reactors to an outdoor raceway pond, Bioresour. Technol, vol.159, pp.342-354, 2014.


S. Van-den-hende, V. Beelen, L. Julien, A. Lefoulon, T. Vanhoucke et al., Technical potential of microalgal bacterial floc raceway ponds treating food-industry effluents while producing microalgal bacterial biomass: An outdoor pilot-scale study, Bioresour. Technol, vol.218, pp.969-979, 2016.

S. Van-den-hende, J. Beyls, P. De-buyck, and D. P. Rousseau, Food-industry-effluentgrown microalgal bacterial flocs as a bioresource for high-value phycochemicals and biogas, Algal Res, vol.18, pp.25-32, 2016.

S. Van-den-hende, H. Vervaeren, S. Desmet, and N. Boon, Bioflocculation of microalgae and bacteria combined with flue gas to improve sewage treatment, New Biotechnol, vol.29, pp.23-31, 2011.


S. Van-den-hende, H. Vervaeren, H. Saveyn, G. Maes, and N. Boon, Microalgal bacterial floc properties are improved by a balanced inorganic/organic carbon ratio, Biotechnol. Bioeng, vol.108, pp.549-558, 2011.

M. C. Van-loosdrecht, M. Henze, M. C. Van-loosdrecht, M. A. Pot, and J. J. Heijnen, Maintenance, endogeneous respiration, lysis, decay and predation, Water Sci. Technol, vol.35, pp.41-47, 1997.

D. Vandamme, I. Foubert, and K. Muylaert, Flocculation as a low-cost method for harvesting microalgae for bulk biomass production, Trends Biotechnol, vol.31, pp.233-239, 2013.

G. Vargas, A. Donoso-bravo, C. Vergara, and G. Ruiz-filippi, Assessment of microalgae and nitrifiers activity in a consortium in a continuous operation and the effect of oxygen depletion, Electron. J. Biotechnol, vol.23, pp.63-68, 2016.

J. Verbesselt, R. Hyndman, G. Newnham, and D. Culvenor, Detecting trend and seasonal changes in satellite image time series, Remote Sens. Environ, vol.114, pp.106-115, 2010.

R. A. Voloshin, M. V. Rodionova, S. K. Zharmukhamedov, T. Veziroglu, and S. I. Allakhverdiev, Review: Biofuel production from plant and algal biomass, Int. J. Hydrog. Energy, vol.41, pp.17257-17273, 2016.

R. M. Voncken, D. B. Holmes, and H. W. Hartog, Fluid flow in turbine-stirred, baffled tanks-III: Dispersion during circulation, Chem. Eng. Sci, vol.19, pp.209-213, 1964.

D. S. Wágner, B. Valverde-pérez, M. Saebø, M. Bregua-de-la-sotilla, J. Van-wagenen et al., Towards a consensus-based biokinetic model for green microalgae -The ASM-A, Water Res, vol.103, pp.485-499, 2016.


C. Wan, M. A. Alam, X. Zhao, X. Zhang, S. Guo et al., Current progress and future prospect of microalgal biomass harvest using various flocculation technologies, Advances in biofuels and chemicals from algae, vol.184, pp.251-257, 2015.

A. J. Ward, D. M. Lewis, and F. B. Green, Anaerobic digestion of algae biomass: a review, Algal Res, vol.5, pp.204-214, 2014.

W. G. Whitman, Preliminary Experimental Confirmation of the Two-FilmTheory of Gas Absorption, Chem Met Eng, vol.29, pp.146-148, 1923.

, WHO | Drinking-water, WHO, 2015.

J. F. Wilkinson, The problem of energy-storage compounds in bacteria, The Cytochemistry of Enzymes and Antigens, vol.7, pp.111-130, 1959.

X. Wu and J. C. Merchuk, Simulation of algae growth in a bench-scale bubble column reactor, Biotechnol. Bioeng, vol.80, pp.156-168, 2002.

X. Wu and J. C. Merchuk, A model integrating fluid dynamics in photosynthesis and photoinhibition processes, Chem. Eng. Sci, vol.56, pp.3527-3538, 2001.

, , pp.48-51

A. Yang, Modeling and evaluation of CO2 supply and utilization in algal ponds, Ind. Eng. Chem. Res, vol.50, pp.11181-11192, 2011.

S. Yeoman, T. Stephenson, J. N. Lester, and R. Perry, The removal of phosphorus during wastewater treatment: A review, Environ. Pollut, vol.49, pp.183-233, 1988.

, , pp.90209-90215

J. Zambrano, I. Krustok, E. Nehrenheim, and B. Carlsson, A simple model for algae-bacteria interaction in photo-bioreactors, Algal Res, vol.19, pp.155-161, 2016.