A cost-effective strategy for marine microalgae separation by electro-coagulation-flotation process aimed at bio-crude oil production: Optimization and evaluation study

Separation and Purification Technology

Volumn 147, Issue , 2015, Pages 156-165

  Golzary, Abooali ^a,b   Imanian, Sajad ^a   Abdoli, Mohammad Ali ^a   Khodadadi, Abbasali ^a   Karbassi, Abdolreza ^a  

^a UNIVERSITY OF TEHRAN   (Iran)

^b TOKYO INSTITUTE OF TECHNOLOGY   (Japan)

Author keywords

Biocrude oil; Chemical coagulation; Electrocoagulation flotation process; Microalgae separation; Response Surface Methodology

Indexed keywords

ALGAE; BIOFUELS; COAGULATION; COST EFFECTIVENESS; COSTS; CRUDE OIL; CURRENT DENSITY; ELECTROSURGERY; FLOTATION; OIL SHALE; OPERATING COSTS; PH; SEPARATION; SURFACE PROPERTIES;

BIOCRUDE OIL; CHEMICAL COAGULATIONS; ELECTRO COAGULATION FLOTATIONS; MICRO-ALGAE; RESPONSE SURFACE METHODOLOGY;

MICROORGANISMS;

EID: 84929089604     PISSN: 13835866     EISSN: 18733794     Source Type: Journal    
DOI: 10.1016/j.seppur.2015.04.011     Document Type: Article

References (51)

1. A.E. Farrell, R.J. Plevin, B.T. Turner, A.D. Jones, M. O'Hare, and D.M. Kammen Ethanol can contribute to energy and environmental goals Science 311 2006 506 508
2. S.A. Khan, M.Z. Rashmi Hussain, S. Prasad, and U.C. Banerjee Prospects of biodiesel production from microalgae in India Renew. Sustain. Energy Rev. 13 2009 2361 2372
3. L. Rodolfi, G.C. Zitelli, N. Bassi, G. Padovani, N. Biondi, G. Bonini, and M.R. Tredici Microalgae for oil: strain selection, induction of lipid synthesis and outdoor mass cultivation in a low-cost photobioreactor Biotechnol. Bioeng. 102 2009 100 112
4. P.K. Campbell, T. Beer, and D. Batten Life cycle assessment of biodiesel production from Bioresour. Technol. 102 2011 50 56
5. P. Chen, M. Min, Y. Chen, L. Wang, Y. Li, and Q. Chen Review of the biological and engineering aspects of algae to fuels approach Int. J. Agric. Biol. Eng. 2 2009 1 30
6. P.M. Schenk, R. Skye, T. Hall, E. Stephens, U.C. Marx, J.H. Mussgnug, C. Posten, O. Kruse, and B. Hankamer Second generation biofuels: high-efficiency microalgae for biodiesel Bioenergy Res. 1 2008 20 43
7. 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 2 2010 1 15
8. M.W. Tenney, W.F. Echelberger Jr., R.G. Schuessler, and J.L. Pavoni Algal flocculation with synthetic organic polyelectrolytes Appl. Microbiol. 18 1969 965 971
9. H. Bernhardt, and J. Clasen Flocculation of micro-organisms J. Water Supply: Res. Technol. - Aqua 40 1991 76 87
10. A.J. Dassey, and C.S. Theegala Reducing electrocoagulation harvesting costs for practical microalgal biodiesel production Environ. Technol. J. 35 2014 691 697
11. L. Dubrawski, and M. Mohseni Standardizing electrocoagulation reactor design: iron electrodes for NOM removal Chemosphere 91 2013 55 60
12. C. Escobar, C. Soto-Salazar, and M. Toral Optimization of the electrocoagulation process for the removal of copper, lead and cadmium in natural waters and simulated wastewater J. Environ. Manage. 81 2006 384 391
13. F. Akbal, and S. CamcI Copper, chromium and nickel removal from metal plating wastewater Desalination 269 2011 214 222
14. A.d.M. Ferreira, M. Marchesiello, and P.-X. Thivel Removal of copper, zinc and nickel present in natural water containing Ca2+ and HCO- ions by electrocoagulation Sep. Purif. Technol. 107 2013 109 117
15. N. Balasubramanian, T. Kojima, C.A. Basha, and C. Srinivasakannan Removal of arsenic from aqueous solution using electrocoagulation J. Hazard. Mater. 167 2009 966 969
16. J.A. Gomes, P. Daida, M. Kesmez, and M. Weir Arsenic removal by electrocoagulation using combined Al-Fe electrode system and characterization of products J. Hazard. Mater. B139 2007 220 231
17. M. Behbahani, M. Alavi Moghadam, and M. Arami Techno-economical evaluation of fluoride removal by electrocoagulation process: optimization through response surface methodology Desalination 271 2011 209 218
18. C.P. Nanseu-Njiki, S.R. Tchamango, C. Ngom, A. Darchen, and E. Ngameni Mercury(II) removal from water by electrocoagulation using aluminium electrodes J. Hazard. Mater. 168 2009 1430 1436
19. A. Shafaei, M. Rezaie, and M. Nikazar Evaluation of Mn2+ and Co2+ removal by electrocoagulation: a case study Chem. Eng. Process.: Process Intensif. 50 2011 1115 1121
20. I. Zongo, A.H. Maiga, J. Wéthé, G. Valentin, J.-P. Leclerc, G. Paternotte, and F. Lapicque Electrocoagulation for the treatment of textile wastewaters with Al or Fe electrodes: compared variations of COD levels, turbidity and absorbance J. Hazard. Mater. 169 2009 70 76
21. E. Gengec, M. Kobya, E. Demirbas, A. Akyol, and O. Kadriye Optimization of baker's yeast wastewater using response surface methodology by electrocoagulation Desalination 286 2012 200 209
22. J.-Q. Jiang, Y. Xu, O.N. Mwabonje, and M. Chipps Removing algae with electrocoagulation/flotation Ecological Management: New Research 2008 Nova Science Publishers Inc New York 235 245
23. S. Gao, M. Du, J. Tian, J. Yang, J. Yang, F. Ma, and J. Nan Effects of chloride ions on electro-coagulation-flotation process with aluminum electrodes for algae removal J. Hazard. Mater. 182 2010 827 834
24. X.M. Chen, G.H. Chen, and P.L. Yue Investigation on the electrolysis voltage of electrocoagulation Chem. Eng. Sci. 57 2002 2449 2455
25. Y.A.M. Mollah, R. Schennach, J.R. Parga, and D.L. Cock Electrocoagulation (EC) - science and applications J. Hazard. Mater. B84 2001 29 41
26. S. Tchamango, C.P. Nanseu-Njiki, E. Ngameni, D. Hadjiev, and A. Darchen Treatment of dairy effluents by electrocoagulation using aluminium electrodes Sci. Total Environ. 408 2010 947 952
27. D. Ghosh, C. Medhi, and M. Purkait Treatment of fluoride containing drinking water by electrocoagulation using monopolar and bipolar electrode connections Chemosphere 73 2008 1393 1400
28. M.Y. Mollah, P. Morkovsky, J.A. Gomes, M. Kesmez, J. Parga, and D.L. Cocke Fundamentals, present and future perspective of electrocoagulation J. Hazard. Mater. B114 2004 199 210
29. A. Keshavarz, J. Karimi-Sabet, A. Fattahi, A. Golzary, M. Rafiee-Tehrani, and F.A. Dorkoosh Preparation and characterization of raloxifene nanoparticles using rapid expansion of supercritical solution (RESS) J. Supercritical Fluids 63 2012 169 179
30. S.H. Jafari Nejad, H. Abolghasemi, M.A. Moosavian, A. Golzary, and M.G. Maragheh Fractional factorial design for the optimization of hydrothermal synthesis of lanthanum oxide nanoparticles under supercritical water condition J. Supercritical Fluids 52 2010 292 297
31. D.C. Montgomery, G.C. Runger, and N.F. Hubele Engineering Statistics 2011 John Wiley & Sons Inc. USA
32. S. Vasudevan, J. Lakshmi, and G. Sozhan Effects of alternating and direct current in electrocoagulation process on the removal of cadmium from water J. Hazard. Mater. 192 2011 26 34
33. J. Martínez-Villafane, C. Montero-Ocampo, and A. García-Lara Energy and electrode consumption analysis of electrocoagulation for the removal of arsenic from underground water J. Hazard. Mater. 172 2009 1617 1622
34. M. Tir, and N. Moulai-Mostefa Optimization of oil removal from oily wastewater by electrocoagulation using response surface method J. Hazard. Mater. 158 2008 107 115
35. S. Sadri Moghaddam, M.R. Alavi Moghaddam, and M. Arami Coagulation/flocculation process for dye removal using sludge from water treatment plant: optimization through response surface methodology J. Hazard. Mater. 175 2010 651 657
36. R.H. Myers, D.C. Montgomery, and C.M. Anderson-Cook Response Surface Methodology third ed. 2009 John Wiley & Sons Hoboken, New Jersey
37. B.H. Hameed, I.A. Tan, and A.L. Ahmad Preparation of oil palm empty fruit bunch-based activated carbon for removal of 2,4,6-trichlorophenol: optimization using response surface methodology J. Hazard. Mater. 164 2009 1316 1324
38. Design-Expert® 8.0 User Guide, Minneapolis: Stat-Ease Inc., 2011.
39. M.S. Bhatti, A.S. Reddy, R.K. Kalia, and A.K. Thukral Modeling and optimization of voltage and treatment time for electrocoagulation removal of hexavalent chromium Desalination 296 2011 157 162
40. M. Kumar, J. Malviya, and V. Srivastava Treatment of bio-digester effluent by electrocoagulation using iron electrodes J. Hazard. Mater. 165 2009 345 352
41. M. Kobya, O.C. Taner, and M. Bayramoglu Treatment of textile wastewaters by electrocoagulation using iron and aluminium electrodes J. Hazard. Mater. 100 2003 163 178
42. M. Saravanan, N.P. Sambhamurthy, and M. Sivarajan Treatment of acid blue 113 dye solution using iron electrocoagulation CLEAN - Soil Air Water 38 2010 565 571
43. S. Gao, J. Yang, J. Tian, F. Ma, G. Tu, and M. Du Electro-coagulation-flotation process for algae removal J. Hazard. Mater. 177 2010 336 343
44. L.M. Rebhun Control of organic matter by coagulation and floc separation Water Sci. Technol. 11 1993 1 20
45. M.M. Emamjomeh, and M. Sivakumar An empirical model for defluoridation by batch monopolar electrocoagulation/flotation (ECF) process J. Hazard. Mater. 131 2006 118 125
46. M. Kobya, O.T. Can, and M. Bayramoglu Treatment of textile wastewaters by electro-coagulation using iron and aluminum electrodes J. Hazard. Mater. 100 2003 995 1000
47. B. Merzouk, B. Gourich, A. Sekki, K. Madani, and M. Chibane Removal turbidity and separation of heavy metals using electrocoagulation-electroflotation technique. A case study J. Hazard. Mater. 164 2009 215 222
48. R.J. Stephenson, and S.J.B. Duff Coagulation and precipitation of a mechanical pulping effluent - I. Removal of carbon, colour and turbidity Water Res. 30 4 1996 781 792
49. M.J. Semmens, and K. Ayers Removal by coagulation of trace organics from Mississippi River water J. Am. Water Works Assoc. 5 77 1985 79 84
50. A. Amirtharajah, K.E. Dennett, and A. Studstill Ferric chloride coagulation for removal of dissolved organic matter and trihalomethane precursors Water Sci. Technol. 27 1993 113 121
51. R.R. Hundt, and C.R. O'Melia Aluminum-fulvic acid interactions: mechanisms and applications J. Am. Water Works Assoc. 4 80 1988 176 186