Phycoremediation of textile and tannery industrial effluents using microalgae and their consortium for biodiesel production

被引:16
作者
Arutselvan, Chithirai [1 ]
Narchonai, Ganesan [1 ]
Pugazhendhi, Arivalagan [2 ]
Seenivasan, Harish kumar [1 ]
LewisOscar, Felix [1 ]
Thajuddin, Nooruddin [1 ,3 ]
机构
[1] Bharathidasan Univ, Dept Microbiol, Div Microalgal Biodivers & Bioenergy, Natl Repository Microalgae & Cyanobacteria,Freshw, Trichy 620024, Tamil Nadu, India
[2] Van Lang Univ, Sch Engn & Technol, Emerging Mat Energy & Environm Applicat Res Grp, Ho Chi Minh City, Vietnam
[3] Bharathidasan Univ, Dept Microbiol, Natl Repository Microalgae & Cyanobacteria Freshw, Tiruchirappalli, India
关键词
Chlorella vulgaris; Scenedesmus dimorphus; Textile and tannery effluent; Waste water treatment; Biodiesel; CENTRAL COMPOSITE DESIGN; MUNICIPAL WASTE-WATER; NUTRIENT REMOVAL; LIPID-ACCUMULATION; SCENEDESMUS-OBLIQUUS; ALGAL BIOMASS; CULTIVATION; BIOFUEL; BIOREMEDIATION; EXTRACTION;
D O I
10.1016/j.jclepro.2022.133100
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
The study reveals the treatment of textile and tannery effluents using freshwater microalgal strains, Chlorella vulgaris (NRMC-F 0128), Scenedesmus dimorphus (NRMC-F 0178), Coelastrella sp., (NRMC-F 0179) and Chlor-ococcum sp., (NRMC-F 0181) isolated from betel field. The physiochemical parameters of the textile and tannery effluents were analyzed prior to the experimentations. The nutrient removal efficiency of all the cultures was evaluated in both lab and outdoor conditions. Further, a consortium of two efficiently growing and lipid pro-ducing strains, Chlorella vulgaris (NRMC-F 0128), Scenedesmus dimorphus (NRMC-F 0178) was tested against effluent degradation under 30 L pond conditions. The levels of pH, TDS (total dissolved solids), EC and nitrite, nitrate, sodium, phosphate, calcium, magnesium, lead, iron, copper and cadmium of both the textile mill and tannery industrial effluents were reduced upon algae mediated remediation. Further, Chlorella vulgaris and Scenedesmus dimorphus consortium produced high amounts of lipid in lab conditions of about 31.20% and 29.50% using textile mill effluent and tannery industrial effluent, respectively; while in outdoor conditions, the lipid was 30.40% and 28.50% respectively. Eventually, the fatty acid analysis showed oleic acid as the major fatty acid in lipids of the consortium, which makes it a plausible candidate for biodiesel production.
引用
收藏
页数:14
相关论文
共 50 条
[41]   An integrated approach for phycoremediation of wastewater and sustainable biodiesel production by green microalgae, Scenedesmus sp. ISTGA1 [J].
Tripathi, Ritu ;
Gupta, Asmita ;
Thakur, Indu Shekhar .
RENEWABLE ENERGY, 2019, 135 :617-625
[42]   Biological fixation of carbon dioxide and biodiesel production using microalgae isolated from sewage waste water [J].
Maheshwari, Neha ;
Krishna, Pushpa K. ;
Thakur, Indu Shekhar ;
Srivastava, Shaili .
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2020, 27 (22) :27319-27329
[43]   A hybrid approach integrating arsenic detoxification with biodiesel production using oleaginous microalgae [J].
Arora, Neha ;
Gulati, Khushboo ;
Patel, Alok ;
Pruthi, Parul A. ;
Poluri, Krishna Mohan ;
Pruthi, Vikas .
ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS, 2017, 24 :29-39
[44]   Evaluation of the Light/Dark Cycle and Concentration of Tannery Wastewater in the Production of Biomass and Metabolites of Industrial Interest from Microalgae and Cyanobacteria [J].
Urbina-Suarez, Nestor A. ;
Ayala-Gonzalez, Darly D. ;
Rivera-Amaya, Jennyfer D. ;
Barajas-Solano, Andres F. ;
Machuca-Martinez, Fiderman .
WATER, 2022, 14 (03)
[45]   A Comparative Study of Improvement of Phycoremediation Using a Consortium of Microalgae in Municipal Wastewater Treatment Pond Systems as an Alternative Solution to Africa's Sanitation Challenges [J].
Oberholster, Paul J. ;
Steyn, Maronel ;
Botha, Anna-Maria .
PROCESSES, 2021, 9 (09)
[46]   Growth of microalgae using CO2 enriched air for biodiesel production in supercritical CO2 [J].
Taher, Hanifa ;
Al-Zuhair, Sulaiman ;
Al-Marzouqi, Ali ;
Haik, Yousef ;
Farid, Mohammed .
RENEWABLE ENERGY, 2015, 82 :61-70
[47]   Recent Trends of Using Alternative Nutrient Sources for Microalgae Cultivation as a Feedstock of Biodiesel Production [J].
Nhat Minh Dang ;
Lee, Kisay .
APPLIED CHEMISTRY FOR ENGINEERING, 2018, 29 (01) :1-9
[48]   An approach for dairy wastewater remediation using mixture of microalgae and biodiesel production for sustainable transportation [J].
Chandra, Rajesh ;
Pradhan, Snigdhendubala ;
Patel, Alok ;
Ghosh, Uttam Kumar .
JOURNAL OF ENVIRONMENTAL MANAGEMENT, 2021, 297
[49]   Potential use of industrial wastewater in selection and cultivation of microalgae as a raw material for biodiesel production [J].
Dujjanutat, Praepilas ;
Keawkannetra, Pakawadee .
JOURNAL OF BIOTECHNOLOGY, 2010, 150 :S149-S150
[50]   Large-scale biodiesel production using microalgae biomass of Nannochloropsis [J].
Moazami, Nasrin ;
Ashori, Alireza ;
Ranjbar, Reza ;
Tangestani, Mehrnoush ;
Eghtesadi, Roghieh ;
Nejad, Ali Sheykhi .
BIOMASS & BIOENERGY, 2012, 39 :449-453