Augustine A, Kumaran J, Puthumana J, Sabu S, Singh ISB, Joseph V (2017): Multifactorial interactions and optimization in biomass harvesting of marine picoalga Picochlorum maculatum MACC3 with different flocculants. Aquaculture 474, 18-25
Augustine A, Tanwar A, Tremblay R, Kumar S (2019): Flocculation processes optimization for reuse of culture medium without pH neutralization. Algal Research-Biomass Biofuels and Bioproducts 39
Besson A, Formosa-Dague C, Guiraud P (2019): Flocculation-flotation harvesting mechanism of Dunaliella salina: From nanoscale interpretation to industrial optimization. Water Research 155, 352-361
Bligh EG, Dyer WJ (1959): A rapid method of total lipid extraction and purification. Canadian journal of biochemistry and physiology 37, 911-7
Cai W, Zhao Z, Li D, Lei Z, Zhang Z, Lee D-J (2019): Algae granulation for nutrients uptake and algae harvesting during wastewater treatment. Chemosphere 214, 55-59
Chekli L, Corjon E, Tabatabai SAA, Naidu G, Tamburic B, Park SH, Shon HK (2017): Performance of titanium salts compared to conventional FeCl3 for the removal of algal organic matter (AOM) in synthetic seawater: Coagulation performance, organic fraction removal and floc characteristics. Journal of Environmental Management 201, 28-36
Chua ET, Eltanahy E, Jung H, Uy M, Thomas-Hall SR, Schenk PM (2019): Efficient Harvesting of Nannochloropsis Microalgae via Optimized Chitosan-Mediated Flocculation. Global Challenges 3
Elder M (2017): Cattle Feed and Feed Additives: Global Markets to 2022.
Fabrizi L, Jefferson B, Parsons SA, Wetherill A, Jarvis P (2010): The Role of Polymer in Improving Floc Strength for Filtration. Environmental Science & Technology 44, 6443-6449
Farooq W, Moon M, Ryu B-g, Suh WI, Shrivastav A, Park MS, Mishra SK, Yang J-W (2015): Effect of harvesting methods on the reusability of water for cultivation of Chlorella vulgaris, its lipid productivity and biodiesel quality. Algal Research-Biomass Biofuels and Bioproducts 8, 1-7
Guillard RR (1975): Culture of phytoplankton for feeding marine invertebrates, Culture of marine invertebrate animals. Springer, pp. 29-60
Haldar D, Sen D, Gayen K (2017): Development of Spectrophotometric Method for the Analysis of Multi-component Carbohydrate Mixture of Different Moieties. Applied Biochemistry and Biotechnology 181, 1416-1434
Humberto Rojo-Cebreros A, Eduardo Morales-Plascencia M, Ibarra-Castro L, Manuel Martinez-Brown J, Alejandra Medina-Jasso M (2016): Flocculation of Nannochloropsis sp induced by sodium hydroxide: flocculation efficiency, viability effect on microalgae and their use as food for rotifers. Latin American Journal of Aquatic Research 44, 662-670
Huo S, Wang Z, Zhu S, Cui F, Zou B, Wang F, Yuan Z, Dong R, Zhao P (2016): Process Analysis of Alkaline Flocculation Harvesting for Chaetoceros muelleri and Scenedesmus quadricauda. Bioenerg Res 9, 682-690
Jin X, Bi L, Lyu T, Chen J, Zhang H, Pan G (2019): Amphoteric starch-based bicomponent modified soil for mitigation of harmful algal blooms (HABs) with broad salinity tolerance: Flocculation, algal regrowth, and ecological safety. Water Research 165
Khan S, Fu P (2019): Biotechnological perspectives on algae: a viable option for next generation biofuels. Current opinion in biotechnology 62, 146-152
Kumari M, Gupta SK (2020): A novel process of adsorption cum enhanced coagulation-flocculation spiked with magnetic nanoadsorbents for the removal of aromatic and hydrophobic fraction of natural organic matter along with turbidity from drinking water. Journal of Cleaner Production 244
Lama S, Muylaert K, Karki TB, Foubert I, Henderson RK, Vandamme D (2016): Flocculation properties of several microalgae and a cyanobacterium species during ferric chloride, chitosan and alkaline flocculation. Bioresource Technology 220, 464-470
Lemos J, Vargas J, Mariano A, Kava V, Ordonez J (2016): A flocculation strategy for harvesting high lipid content microalgae biomass, 2016 IEEE Conference on Technologies for Sustainability (SusTech). IEEE, pp. 240-245
Li L, Zhang H, Pan G (2015): Influence of zeta potential on the flocculation of cyanobacteria cells using chitosan modified soil. Journal of Environmental Sciences 28, 47-53
Li Y, Xu Y, Zheng T, Wang H (2018): Amino acids in cell wall of Gram-positive bacterium Micrococcus sp hsn08 with flocculation activity on Chlorella vulgaris biomass. Bioresource Technology 249, 417-424
Li Y, Zhang Z, Duan Y, Wang H (2019): The effect of recycling culture medium after harvesting of Chlorella vulgaris biomass by flocculating bacteria on microalgal growth and the functionary mechanism. Bioresource Technology 280, 188-198
Mathimani T, Mallick N (2018): A comprehensive review on harvesting of microalgae for biodiesel - Key challenges and future directions. Renewable & Sustainable Energy Reviews 91, 1103-1120
Mayers JJ, Vaiciulyte S, Malmhäll-Bah E, Alcaide-Sancho J, Ewald S, Godhe A, Ekendahl S, Albers E (2018): Identifying a marine microalgae with high carbohydrate productivities under stress and potential for efficient flocculation. Algal Research 31, 430-442
Miller SM, Fugate EJ, Craver VO, Smith JA, Zimmerman JB (2008): Toward Understanding the Efficacy and Mechanism of Opuntia spp. as a Natural Coagulant for Potential Application in Water Treatment. Environmental Science & Technology 42, 4274-4279
Nayak M, Rashid N, Suh WI, Lee B, Chang YK (2019): Performance evaluation of different cationic flocculants through pH modulation for efficient harvesting of Chlorella sp. HS2 and their impact on water reusability. Renewable Energy 136, 819-827
Nguyen LN, Labeeuw L, Commault AS, Emmerton B, Ralph PJ, Johir MAH, Guo W, Hao Huu N, Nghiem LD (2019): Validation of a cationic polyacrylamide flocculant for the harvesting fresh and seawater microalgal biomass. Environmental Technology & Innovation 16
Pandal NJMRR, bcc Research. Paśko P., Sajewicz M., Gorinstein S., Zachwieja (2017): Nutraceuticals: global markets.
Pandey A, Pathak VV, Kothari R, Black PN, Tyagi VV (2019): Experimental studies on zeta potential of flocculants for harvesting of algae. Journal of Environmental Management 231, 562-569
Phasey J, Vandamme D, Fallowfield HJ (2017): Harvesting of algae in municipal wastewater treatment by calcium phosphate precipitation mediated by photosynthesis, sodium hydroxide and lime. Algal Research-Biomass Biofuels and Bioproducts 27, 115-120
Raslavicius L, Striugas N, Felneris M (2018): New insights into algae factories of the future. Renewable & Sustainable Energy Reviews 81, 643-654
Salim S, Vermuë MH, Wijffels RH (2012): Ratio between autoflocculating and target microalgae affects the energy-efficient harvesting by bio-flocculation. Bioresource Technology 118, 49-55
Sedmak JJ, Grossberg SE (1977): A rapid, sensitive, and versatile assay for protein using Coomassie brilliant blue G250. Analytical biochemistry 79, 544-52
Sidney Aleman-Nava G, Muylaert K, Bermudez SPC, Depraetere O, Rittmann B, Parra-Saldivar R, Vandamme D (2017): Two-stage cultivation of Nannochloropsis oculata for lipid production using reversible alkaline flocculation. Bioresource Technology 226, 18-23
Singh G, Patidar SK (2018): Microalgae harvesting techniques: A review. Journal of Environmental Management 217, 499-508
Uduman N, Qi Y, Danquah MK, Hoadley AFA (2010): Marine microalgae flocculation and focused beam reflectance measurement. Chemical Engineering Journal 162, 935-940
Vahedi A, Gorczyca B (2011): Application of fractal dimensions to study the structure of flocs formed in lime softening process. Water Research 45, 545-556
Vandamme D, Beuckels A, Markou G, Foubert I, Muylaert K (2015): Reversible Flocculation of Microalgae using Magnesium Hydroxide. Bioenerg Res 8, 716-725
Wang S, Yerkebulan M, Abomohra AE-F, El-Khodary S, Wang Q (2019): Microalgae harvest influences the energy recovery: A case study on chemical flocculation of Scenedesmus obliquus for biodiesel and crude bio-oil production. Bioresource Technology 286
Wu J, Liu J, Lin L, Zhang C, Li A, Zhu Y, Zhang Y (2015): Evaluation of several flocculants for flocculating microalgae. Bioresource Technology 197, 495-501
Yamin WA, Shaleh SRM, Ching F, Othman R, Manjaji-Matsumoto M, Mustafa S, Shigeharu S, Kandasamy G (2019): Harvesting Chaetoceros gracilis by flocculation using Chitosan, IOP Conference Series: Earth and Environmental Science. IOP Publishing, pp. 012123
Yang J, Xu M, Zhang X, Hu Q, Sommerfeld M, Chen Y (2011): Life-cycle analysis on biodiesel production from microalgae: Water footprint and nutrients balance. Bioresource Technology 102, 159-165
Yap BHJ, Crawford SA, Dumsday GJ, Scales PJ, Martin GJO (2014): A mechanistic study of algal cell disruption and its effect on lipid recovery by solvent extraction. Algal Research-Biomass Biofuels and Bioproducts 5, 112-120
Yunos FHM, Nasir NM, Jusoh HHW, Khatoon H, Lam SS, Jusoh A (2017): Harvesting of microalgae (Chlorella sp.) from aquaculture bioflocs using an environmental-friendly chitosan-based bio-coagulant. International Biodeterioration & Biodegradation 124, 243-249
Zhu L, Li S, Hu T, Nugroho YK, Yin Z, Hu D, Chu R, Mo F, Liu C, Hiltunen E (2019): Effects of nitrogen source heterogeneity on nutrient removal and biodiesel production of mono- and mix-cultured microalgae. Energy Conversion and Management 201, 112144
Zhu L, Hu T, Li S, Nugroho YK, Li B, Cao J, Show P-L, Hiltunen E (2020): Effects of operating parameters on algae Chlorella vulgaris biomass harvesting and lipid extraction using metal sulfates as flocculants. Biomass & Bioenergy 132
Zhu LD, Li ZH, Guo DB, Huang F, Nugroho Y, Xia K (2017): Cultivation of Chlorella sp. with livestock waste compost for lipid production. Bioresource Technology 223, 296-300