References
- American Public Health Association(2012). Standard Methods for The Examination of Water and Waste Water, American Public Health Association, Washington, DC
- Cho, YC, Jin SJ, Choi, HJ, Ryu, MH, Yoo, SH(2016). Estimation of the aesthetic and environmental costs of algal bloom, J. of Environmental Policy and Administration, 24(4), pp. 227-246. [Korean Literature] https://doi.org/10.15301/jepa.2016.24.4.227
- Choi, HJ, Lee, SM(2014). Effect of N/P Ratio on the Biomass Productivity and Nutrient Removal in the Wastewater using Botryococcus braunii, Korean Society of Environment Engineers, 36(9), pp. 609-613. [Korea literature] https://doi.org/10.4491/KSEE.2014.36.9.609
- Gonzalez-Gil, G, Sougrat, R, Behzad, AR, Piet NL, Lens and Pascal ES(2015). Community Composition and Ultrastructure of Granules from a Full-Scale Anammox Reactor, Microbial Ecology, 70(1), pp. 118-131. https://doi.org/10.1007/s00248-014-0546-7
- Gutzeit, G, Lorch, D, Weber, A, Engels, M, Neis, U(2005). Bioflocculent algal-bacterial biomass improves low-cost wastewater treatment, Water Science & Technology, 52(12), pp. 9-18.
- Husam A. Abu Hajar, R, Guy Riefler, Ben J. Stuart(2016). Anaerobic digestate as a nutrient medium for the growth of the green microalga Neochloris oleoabundans, Environmental Engineering Research, 21(3), pp. 265-275. https://doi.org/10.4491/eer.2016.005
- Im, JY and Gil, KI(2015). Effects of the influent ammonium nitrogen concentration on nitrite accumulation in a biological nitritation process, Environmental Earth Sciences, 73(8), pp. 4399-4404. https://doi.org/10.1007/s12665-014-3724-5
- Kang, ZO, Kim, BH, Shin, SY, Oh, HM, Kim, HS(2012). Municipal Wastewater Treatment and Microbial Diversity Analysis of Microalgal Mini Raceway Open Pond, Korean J. of Microbiology, 48(3), pp. 192-199. [Korea literature] https://doi.org/10.7845/kjm.2012.036
- Kang, DH(2016). Advanced wastewater treatment by microalgae-bacteria consortium, Ph.D Dissertation, Myongji University, Yongin, Korea
- Kwon, HK, Oh, SJ, Yang, HS, Yu, YM(2011). Effects of temperature and Salinity on the Growth of Marine Benthic Microalgae for Phytoremediation, The Korean Society for Marine Environment & Energy, 14(2), pp. 130-137. https://doi.org/10.7846/JKOSMEE.2011.14.2.130
- Keiko OK, Kazuhiro F, Yoshikatsu K, Kenji K(2006). Effect of blue-light PPFD percentage in Red and Blue LED low-light irradiation during storage on the contents of chlorophyll and rubisco in Grafted tomato plug seedings, 44(4), pp. 309-314. https://doi.org/10.2525/ecb.44.309
- Kim, DG, Choi, YE(2014). Microalgae cultivation using LED light, Korean Chemical Engineering Research, 52(1), pp. 8-16. https://doi.org/10.9713/kcer.2014.52.1.8
- Kim, DH, Kim, SM, Oh, YG, Park, CH(2013). A study on optimal treatment conditions and operational characteristics of nutrient removal using microalgae, J. of Korea Society of Urban Environment, 13(1), pp. 43-50. [Korean Literature]
- Kim, JH., Yoon, CM, Jung, SH(2016). On-off Control for Continuous Culture of Microalgae in Flat Panel Photobioreactor, Korea Society of Manufacturing Technology Engineers, 25(3), pp. 237-243. [Korea literature] https://doi.org/10.7735/ksmte.2016.25.3.237
- Lee, JH. and Park, JH.(2011). Characterization of Algal-Bacterial Ecological Interaction and Nutrients Removal Under Municipal Wastewater Condition, Korean Society of Environment Engineers, 33(5), pp. 314-324. [Korea literature] https://doi.org/10.4491/KSEE.2011.33.5.314
- Lee, CS, Lee, SA, Ko, SR, Oh, HM, Ahn, CY(2015). Effects of photoperiod on nutrient removal, biomass production, and algal-bacterial population dynamics in lab-scale photobioreactors treating municipal wastewater, Water research, 68, pp. 680-691. https://doi.org/10.1016/j.watres.2014.10.029
- Posadas, E., Bochon, S., Coca, M., Garcia-Gonzalez, M. C., Garcia-Encina, P. A., & Munoz, R.(2014). Microalgaebased argo-industrial wastewater treatment: a preliminary screening of biodegradability, J. of Applied Phycology, 26(6), pp. 2335-2345. https://doi.org/10.1007/s10811-014-0263-0
- Posadas, E., Munoz. A., Gonzalez. M., Munoz. R., Garcia-Encina P.(2014). A case study of a pilot high efficiency algal pond for the treatment of fish farm and domestic wastewaters, J. of Chemical Technology and Biotechnology, 24(6), pp. 2345-2355.
- Ras, M., Steyer, JP., Bernard, O.(2013). Temperature effect on microalgae: a crucial factor for outdoor production, Reviews in environmental science and biotechnology, 12(2), pp. 153-164. https://doi.org/10.1007/s11157-013-9310-6
- Raul M, Benoit G(2006). Algal-bacterial processes for the treatment of hazardous contaminants: A review, Water research, 40, pp. 2799-2815. https://doi.org/10.1016/j.watres.2006.06.011
- Wang, M., Yang, H., Ergas, S. J. and van der Steen, P.(2010). A novel shortcut nitrogen removal process using an algal-bacterial consortium in a photo-sequencing batch reactor(PSBR), Water research, 87, pp. 38-48.
- Wishkerman, A, Wishkerman, E(2017). Application note: A novel low-cost open-source LED system for microalgae cultivation, Computers and electronics in agriculture, 132, pp. 56-62. https://doi.org/10.1016/j.compag.2016.11.015
- Zhang, W, Zhao, Y, Cui, B, Wang, H, Liu, T(2016). Evaluation of filamentous green algae as feedstocks for biofuel production, Bioresource Technology, 220, pp. 407-413. https://doi.org/10.1016/j.biortech.2016.08.106