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W4283164097 startingPage "135375" @default.
W4283164097 abstract "Microalgae-based wastewater treatment has previously been carried out in huge waste stabilization ponds. Microalgae, which can absorb carbon dioxide while reusing nutrients from sewage, has recently emerged as a new trend in the wastewater treatment business. Microalgae farming is thought to be a potential match for the modern world's energy strategy, which emphasizes low-cost and environmentally benign alternatives. Microalgae are being used to treat wastewater and make useful products. Microalgae, for example, is a promising renewable resource for producing biomass from wastewater nutrients because of its quick growth rate, short life span, and high carbon dioxide utilization efficacy. Microalgae-based bioremediation has grown in importance in the treatment of numerous types of wastewater in recent years. This solar-powered wastewater treatment technology has huge potential. However, there are still issues to be resolved in terms of land requirements, as well as the process's ecological feasibility and long-term viability, before these systems can be widely adopted. Due to cost and the need for a faultless downstream process, it is difficult to deploy this technology on a large scale. Other recent breakthroughs in wastewater microalgae farming have been investigated, such as how varied pressures affect microalgae growth and quality, as well as the number of high-value components produced. In this review, the future of this biotechnology has also been examined." @default.
W4283164097 created "2022-06-21" @default.
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W4283164097 date "2022-10-01" @default.
W4283164097 modified "2023-10-16" @default.
W4283164097 title "Heavy metal remediation from wastewater using microalgae: Recent advances and future trends" @default.
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W4283164097 cites W2047722017 @default.
W4283164097 cites W2049599522 @default.
W4283164097 cites W2069793464 @default.
W4283164097 cites W2105058843 @default.
W4283164097 cites W2130707940 @default.
W4283164097 cites W2255762950 @default.
W4283164097 cites W2395685063 @default.
W4283164097 cites W2396109471 @default.
W4283164097 cites W2468470629 @default.
W4283164097 cites W2531622889 @default.
W4283164097 cites W2597213858 @default.
W4283164097 cites W2622080439 @default.
W4283164097 cites W2758996211 @default.
W4283164097 cites W2766616840 @default.
W4283164097 cites W2780068785 @default.
W4283164097 cites W2801203596 @default.
W4283164097 cites W2805563745 @default.
W4283164097 cites W2810657203 @default.
W4283164097 cites W2893700578 @default.
W4283164097 cites W2898009306 @default.
W4283164097 cites W2898817320 @default.
W4283164097 cites W2901683643 @default.
W4283164097 cites W2907681886 @default.
W4283164097 cites W2915456106 @default.
W4283164097 cites W2921680746 @default.
W4283164097 cites W2922443320 @default.
W4283164097 cites W2923577318 @default.
W4283164097 cites W2947861235 @default.
W4283164097 cites W2951038469 @default.
W4283164097 cites W2953241158 @default.
W4283164097 cites W2956022737 @default.
W4283164097 cites W2965744022 @default.
W4283164097 cites W2973004517 @default.
W4283164097 cites W2981703366 @default.
W4283164097 cites W2984092417 @default.
W4283164097 cites W2991646398 @default.
W4283164097 cites W2994272522 @default.
W4283164097 cites W2995607987 @default.
W4283164097 cites W2998760791 @default.
W4283164097 cites W2999939473 @default.
W4283164097 cites W2999949784 @default.
W4283164097 cites W3001077005 @default.
W4283164097 cites W3011339679 @default.
W4283164097 cites W3012298986 @default.
W4283164097 cites W3012705544 @default.
W4283164097 cites W3016269136 @default.
W4283164097 cites W3023514057 @default.
W4283164097 cites W3041847866 @default.
W4283164097 cites W3081960530 @default.
W4283164097 cites W3082865927 @default.
W4283164097 cites W3087916718 @default.
W4283164097 cites W3092419996 @default.
W4283164097 cites W3093354747 @default.
W4283164097 cites W3095957654 @default.
W4283164097 cites W3108473122 @default.
W4283164097 cites W3112112259 @default.
W4283164097 cites W3112308509 @default.
W4283164097 cites W3112836449 @default.
W4283164097 cites W3113134152 @default.
W4283164097 cites W3125593677 @default.
W4283164097 cites W3127592644 @default.
W4283164097 cites W3130657702 @default.
W4283164097 cites W3142674891 @default.
W4283164097 cites W3154520597 @default.
W4283164097 cites W3155102996 @default.
W4283164097 cites W3172770894 @default.
W4283164097 cites W3174155873 @default.
W4283164097 cites W3185889172 @default.
W4283164097 cites W3193948354 @default.
W4283164097 cites W3199912309 @default.
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W4283164097 doi "https://doi.org/10.1016/j.chemosphere.2022.135375" @default.
W4283164097 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35738200" @default.
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