3/26/2023 0 Comments Achroma bacteria symbiosis![]() ![]() This review investigates the impact of the microalgae-other microorganism interactions on the production of biomass and high value compounds.Ĭhai WS, Tan WG, Munawaroh HSH, Gupta VK, Ho SH, Show PL. Interactions of microalgae and other microorganisms for enhanced production of high-value compounds. Food processing wastewater purification by microalgae cultivation associated with high value-added compounds production - a review. Li S, Zhao S, Yan S, Qiu Y, Song C, Li Y, et al. Optimization of simultaneous soybean processing wastewater treatment and flue gas CO2 fixation via chlorella sp. Chlorella vulgaris cultivation in simulated wastewater for the biomass production, nutrients removal and CO 2 fixation simultaneously. Kong W, Kong J, Ma J, Lyu H, Feng S, Wang Z, et al. Microalgae carbon fixation integrated with organic matters recycling from soybean wastewater: Effect of pH on the performance of hybrid system. Song C, Han X, Qiu Y, Liu Z, Li S, Kitamura Y. Simultaneous nutrients and carbon removal during pretreated swine slurry degradation in a tubular biofilm photobioreactor. 2009 161(1):29–34.ĭe Godos I, Gonzalez C, Becares E, Garcia-Encina PA, Munoz R. Biofilm photobioreactors for the treatment of industrial wastewaters. ![]() ![]() Carbon and nutrient removal from centrates and domestic wastewater using algal–bacterial biofilm bioreactors. Posadas E, García-Encina P, Soltau A, Domínguez A, Díaz I, et al. Microalgae growth and phosphorus uptake in wastewater under simulated cold region conditions. Ammonia-oxidizing microbial communities in reactors with efficient nitrification at low-dissolved oxygen. 2012.įitzgerald CM, Camejo P, Oshlag JZ, Noguera DR. Biofixation of carbon dioxide by Chlamydomonas sp. Microalgal cultivation with biogas slurry for biofuel production. Oswald WJ, Gotaas HB, Golueke CG, Kellen WR. This paper introduces the mechanism of CO 2 fixation by microalgae and discusses the factors affecting CO 2 adsorption by microalgae. Microalgae as a solution of third world energy crisis for biofuels production from wastewater toward carbon neutrality: an updated review. Parboiled rice effluent: A wastewater niche for microalgae and cyanobacteria with growth coupled to comprehensive remediation and phosphorus biofertilization. Mukherjee C, Chowdhury R, Sutradhar T, Begam M, Ghosh SM, Basak SK, et al. Recent progress of algae and blue-green algae-assisted synthesis of gold nanoparticles for various applications. Khan AU, Khan M, Malik N, Cho MH, Khan MM. Minimizing greenhouse gas emission from wastewater treatment process by integrating activated sludge and microalgae processes. ![]() Remediating agricultural legacy nutrient loads in the Baltic Sea region. Phosphate removal from industrial wastewaters using layered double hydroxides. Maia MA, Dotto GL, Perez-Lopez OW, Gutterres M. Polymer functionalized nanocomposites for metals removal from water and wastewater: an overview. Lofrano G, Carotenuto M, Libralato G, Domingos RF, Markus A, Dini L, et al. Papers of particular interest, published recently, have been highlighted as: Finally, the application prospect of microalgae biofilm in wastewater treatment was prospected. Furthermore, the research progress of photobioreactors is summarized as well. This article introduces the mechanism and influencing factors of the algae-bacteria symbiotic system to remove nutrients and organic pollutants from water in detail. The algae-bacteria symbiotic system is more effective compared to individual microalgae treatment since the algae-bacteria biofilm has better removal efficiency and adsorption capacity as well as easy to harvest. The photobioreactor for microalgae cultivation is gradually developed and optimized, laying a solid foundation for actual production and application. To further improve wastewater utilization efficiency and carbon fixation, it is necessary to understand the algae-bacteria symbiotic system of mechanism and influencing factors of nitrogen and phosphorus removal and carbon fixation. Recent Findingsĭue to the photosynthesis of algae and the oxidative decomposition of bacteria, the symbiotic system of algae biofilm and bacteria from wastewater has significant advantages in harvesting and degradation. This paper reviews the knowledge of microalgae biofilm combined with bacteria to treat wastewater and provides insights into the bioremediation of the ecosystem by algae and bacteria. Besides, the attached microalgae are easy to harvest and can be used for the processing of high value-added products. That is because the algae-bacteria biofilm can not only remove nutrients from the water but also achieve the effect of carbon fixation. The utilization of attached microalgae and bacteria to degrade wastewater has become a more promising treatment process to replace traditional methods. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |