Titlebook: Application of Microalgae in Wastewater Treatment; Volume 2: Biorefiner Sanjay Kumar Gupta,Faizal Bux Book 2019 Springer Nature Switzerland

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Cultivation of Microalgae on Anaerobically Digested Agro-industrial Wastes and By-Products, content in ammoniacal nitrogen, suspended solids, and several inhibitors that might limit growth, and therefore pretreatment of digestates is likely to have a positive effect on biomass production. Microalgal cultivation is proven as an efficient technology for the removal of nitrogen, phosphorus,

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Phyco-Remediation of Dairy Effluents and Biomass Valorization: A Sustainable Approach,Since microalgae have the capability to grow in wastewater as well as remediate nutrients, which translate it an environment friendly and economically viable biofuel feedstock. The present chapter emphasizes on the possibility of utilizing dairy wastewater as nutrients for microalgae cultivation and

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Industrial Wastewater-Based Algal Biorefineries: Application Constraints and Future Prospects,d for their potential in the energy sector to replace the use of fossil fuels. Heavy metal and other harsh chemical pollution is a significant issue in many industries. However, several species of algae including . spp., . spp., . spp., and . spp. have shown to be effective heavy metal reducers. Ena

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Valorization of Nutrient-Rich Urinal Wastewater by Microalgae for Biofuel Production,ion from microalgae biomass through anaerobic digestion was a promising technology. The rigid cell wall of microalgae biomass needs to be disintegrated for improving its biodegradability, and the microalgae cultivation with urinal wastewater will be economically viable. This chapter provides the kno

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