Atmospheric Carbon Sequestration Using Microalgae

被引:0
作者
Glazunova, D. M. [1 ]
Galitskaya, P. Yu. [1 ]
Selivanovskaya, S. Yu. [1 ]
机构
[1] Kazan Fed Univ, Kazan 420008, Russia
来源
UCHENYE ZAPISKI KAZANSKOGO UNIVERSITETA-SERIYA ESTESTVENNYE NAUKI | 2024年 / 166卷 / 01期
关键词
carbon dioxide; carbon sequestration; microalgae; microalgae biomass; biotechnological facilities for growing microalgae; BIODIESEL PRODUCTION; DIOXIDE CAPTURE; WASTE-WATER; DIRECT TRANSESTERIFICATION; HYDROTHERMAL LIQUEFACTION; COMMERCIAL APPLICATIONS; BIOMASS PRODUCTION; CHLORELLA-FUSCA; BIO-MITIGATION; OIL PRODUCTION;
D O I
10.26907/2542-064X.2024.1.82-125
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
This article outlines biotechnological methods that can help reduce atmospheric and industrial carbon dioxide emissions through the use of microalgae. A general description of microalgae was provided, and the most promising species for microalgal biotechnology were identified. The metabolic process by which microalgae capture and degrade carbon dioxide was described. The microalgae-based biotechnological systems and devices available today were analyzed. The key factors that need to be considered for the effective and successful use of microalgae were highlighted. Different products obtained from microalgal biomass after atmospheric carbon dioxide sequestration were overviewed.
引用
收藏
页码:82 / 125
页数:44
相关论文
共 50 条
[21]   Advances in microalgae-based carbon sequestration: Current status and future perspectives [J].
Udaypal ;
Goswami, Rahul Kumar ;
Mehariya, Sanjeet ;
Verma, Pradeep .
ENVIRONMENTAL RESEARCH, 2024, 249
[22]   Microalgae-based carbon sequestration: growth of spirulina platensis with flue gas feeding [J].
Arata, S. ;
Strazza, C. ;
Lodi, A. ;
Del Borghi, A. .
JOURNAL OF BIOTECHNOLOGY, 2010, 150 :S279-S279
[23]   Microalgae as feedstock for biodiesel production: Carbon dioxide sequestration, lipid production and biofuel quality [J].
Francisco, Erika C. ;
Neves, Debora B. ;
Jacob-Lopes, Eduardo ;
Franco, Telma T. .
JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY, 2010, 85 (03) :395-403
[24]   Bioenergy characteristics of microalgae under elevated carbon dioxide [J].
Barati, Bahram ;
Zafar, Fatemeh Fazeli ;
Qian, Lili ;
Wang, Shuang ;
Abomohra, Abd El-Fatah .
FUEL, 2022, 321
[25]   High Concentration CO2 Sequestration by Using Microalgae in Staged Cultivation [J].
Huang, Guanhua ;
Li, Tao ;
Chen, Feng ;
He, Huan ;
Kuang, YaLi .
ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY, 2016, 35 (06) :1862-1867
[26]   Assessment of the Potential of CO2 Sequestration from Cement Flue Gas Using Locally Isolated Microalgae [J].
Wijayasekera, Sachindra C. N. ;
Cooray, Bimal Y. ;
Premaratne, Malith ;
Ariyadasa, Thilini U. .
MERCON 2020: 6TH INTERNATIONAL MULTIDISCIPLINARY MORATUWA ENGINEERING RESEARCH CONFERENCE (MERCON), 2020, :124-129
[27]   Atmospheric carbon reduction and carbon sequestration in small community wastewater treatment systems using constructed wetlands [J].
Ogden, MH .
ON-SITE WASTEWATER TREATMENT, PROCEEDINGS, 2001, :674-683
[28]   Carbon Dioxide Utilization Using Chlorella Microalgae [J].
Politaeva, Natalia ;
Ilin, Igor ;
Velmozhina, Ksenia ;
Shinkevich, Polina .
ENVIRONMENTS, 2023, 10 (07)
[29]   Microalgae cultivation for carbon dioxide sequestration and protein production using a high-efficiency photobioreactor system [J].
Pavlik, David ;
Zhong, Yingkui ;
Daiek, Carly ;
Liao, Wei ;
Morgan, Robert ;
Clary, William ;
Liu, Yan .
ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS, 2017, 25 :413-420
[30]   Mitigation of atmospheric CO2 concentrations by increased carbon sequestration in the soil [J].
Batjes, NH .
BIOLOGY AND FERTILITY OF SOILS, 1998, 27 (03) :230-235
12345