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Korean Journal of Chemical Engineering, Vol.35, No.5, 1144-1150, 2018
Assessment of phosphorescent paint effects on microalgae cultivation
Light is the most important factor involved in the growth of photosynthetic organisms, and low efficiency of artificial light systems imposes higher cultivation costs. Phosphorescent paints can emit light for a few hours, and so may be appropriate to accumulate scattered light. In this study, the effects of blue and green phosphorescent paints on growth rate, biomass production and chlorophyll content of three different microalgae, Scenedesmus dimorphus, Chlamydomonas reinhardtii and Chlorella vulgaris were investigated. These strains were cultivated in broth medium in three glass bowls. Half of the first two bowls was stained with blue or green phosphorescent paints (B and G treatment), while the third one was unstained and used as the control (C treatment). All measured parameters were higher in B. The results indicate that partial staining of culturing bowls by blue phosphorescent paint can be an economic approach to increase light efficiency in cultivating microalgae.
[References]
- Lannan E, Thesis MS, Rochester Institute, New York (2011).
- Su Y, PhD Thesis, University of Luneburg, Luneburg (2012).
- Al-Qasmi M, Raut N, Talebi S, Al-Rajhi S, Al-Barwani T, Proceedings of the World Congress on Engineering (2012).
- Koc C, Anderson GA, Kommareddy A, Isr. J. Aquac-Bamidgeh, 65 (2013).
- Johnson DA, Weissman J, Goebel R, Report, SERI/TP-231-3325, Solar Energy Research Inst., Golden CO (U.S.A.); Microbial Products Inc., Fairfield, CA, U.S.A. (1988).
- Mata TM, Martins AA, Caetano NS, Renew. Sust. Energ. Rev., 14, 217, 2010
- Oyler JR, US Patent, US7977076 B2 (2011).
- Rupprecht J, J. Biotechnol., 142, 10, 2009
- Gupta PL, Lee SM, Choi HJ, World J. Microbiol. Biotechnol., 31, 1409, 2015
- Chisti Y, Trends Biotechnol., 26, 126, 2008
- Grima EM, Fernandez FA, Camacho FG, Chisti Y, . Biotechnol., 70, 231, 1999
- Hincapie E, Stuart BJ,... Jena U, Hoekman SK, Frontiers Media SA, Lausanne (2017).
- Hu JY, Sato T, Energy Conv. Manag., 133, 558, 2017
- Das D, Algal biorefinery: An integrated approach, Springer International Publishing, Cham, Switzerland (2015).
- Bhargavi GN, Khare A, Opt. Spectrosc., 118, 902, 2015
- Smet PF, Poelman D, Hehlen MP, Opt. Mater. Express, 2, 452, 2012
- Brito HF, Holsa J, Laamanen T, Lastusaari M, Malkamaki M, Rodrigues LC, Opt. Mater. Express, 2, 371, 2012
- Matsuzawa T, Aoki Y, Takeuchi N, Murayama Y, J. Electrochem. Soc., 143(8), 2670, 1996
- Smet P, Van den Eeckhout K, De Clercq O, Poelman D, Bunzli J, Pecharsky V, in Handbook on the Physics and Chemistry of Rare Earths, Bunzli JCG, Pecharsky VK, Elsevier, Amsterdam (2015).
- de Lourdes FMM, Josefina RRMD, Ulises MMC, de Jesus MRA, Open Agricult. J., 2, 394, 2017
- Li YT, Han DX, Hu GR, Sommerfeld M, Hu QA, Biotechnol. Bioeng., 107(2), 258, 2010
- Kotai J, Instructions for preparation of modified nutrient solution z8 for algae, Norwegian Institute for Water Research, Oslo (1972).
- Eijckelhoff C, Dekker JP, Photosynth. Res., 52, 69, 1997
- Goswami RCD, Kalita M, J. Algal Biomass Utln., 2, 42, 2011
- Eullaffroy P, Vernet G, Water Res., 37, 1983, 2003
- Gour RS, Chawla A, Singh H, Chauhan RS, Kant A, PloS One, 11, e01553, 2016
- Mohsenpour SF, Richards B, Willoughby N, Bioresour. Technol., 125, 75, 2012
- Jacob-Lopes E, Scoparo CHG, Lacerda LMCF, Franco TT, Chem. Eng. Process., 48(1), 306, 2009
- Lopez-Rodas V, Gonzalez-Chabarri E, Gonzalez-Gil S, Costas E, Korean J. Phycol., 7, 167, 1992
- Ra CH, Kang CH, Jung JH, Jeong GT, Kim SK, Bioresour. Technol., 212, 254, 2016
- Van T, Haller W, Bowes G, Garrard L, J. Aquat. Plant Manage., 15, 29, 1977
- Carvalho AP, Silva SO, Baptista JM, Malcata FX, Appl. Microbiol. Biotechnol., 89(5), 1275, 2011
- Pfaffinger CE, Schone D, Trunz S, Lowe H, Weuster-Botz D, Algal Res., 20, 153, 2016
- Park KH, Lee CG, Biotechnol. Bioprocess Eng., 5, 186, 2000
- Su YY, Mennerich A, Urban B, Bioresour. Technol., 118, 469, 2012
- Priyadarshani I, Rath B, J. Algal Biomass Utln., 3, 89, 2012
- Hosikian A, Lim S, Halim R, Danquah MK, Int. J. Chem. Eng., 2010, 11, 2010
- Czeczuga B, Phyton, 26, 59, 1986
- Marchetti J, Bougaran G, Jauffrais T, Lefebvre S, Rouxel C, Saint-Jean B, Lukomska E, Robert R, Cadoret JP, J. Appl. Phycol., 25, 109, 2013
- Saavedra MDPS, Voltolina D, Comp. Biochem. Physiol. B., 107, 39, 1994
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