SHANTANU PRAKASHRAO BAGMARE
Botany
April 2022
The electricity, mining, and mining sectors are point sources of metal-contaminated wastewater and carbon dioxide (CO2) (CO2). The Oedogonium family of freshwater algae can be introduced into metal-loaded wastewater to generate bioenergy for bioenergy applications and bioremediate metals accordingly. Nevertheless, cooperation between CO2 expansion and algae turnaround, where bioremediation can be adapted, remains neglected. The expansion of CO2 from coal-fired power plants to the algae community of ash dam water (ADW) is Oedogonium sp. Helped the biomass efficiency of. From 6.8 g dry weight (DW) m2d1 up to 22.5 g DW m2d1. Increasing efficiency has increased the pace of bioremediation for most components. However, after a while, the profits of companies that revised carbon decreased. Possible causes include the harmful effects of metals at low pH, or basic minor restrictions due to competition between toxic minors and basic minors for inclusion in green growth. .. Increased efficiency increases the speed of bioremediation, increases biomass for bioenergy applications, and supports maximum efficiency is key to the integrated culture model. To achieve this, it is essential to identify the factors responsible for diminishing returns in carbon-changed societies. In any case, our information suggests that freshwater macroalgae are viable candidates for bioremediation of metal-contaminated waste streams. Culture of algae significantly improves the quality of ADW and reduces the five components (Al, As, Cd, Ni, and Zn) that were previously abundant in water quality standards, 2 to about 1 month. Compliant with regulations within.
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© Airo Journals 2021
