Contents

xi

10.4

Conclusion

150

References

150

11

Usage of Microalgae: A Sustainable Approach to Wastewater

Treatment

155

Kumudini B. Satyan, Michael V. L. Chhandama, and Dhanya V. Ranjit

11.1

Introduction

155

11.1.1

Microalgae

156

11.1.2

Composition of Wastewater

157

11.2

Microalgae for Wastewater Treatment

158

11.2.1

Biological Oxygen Demand (BOD)

159

11.2.2

Chemical Oxygen Demand (COD)

159

11.2.3

Nutrients (Nitrogen and Phosphorus)

160

11.2.4

Heavy Metals

160

11.2.5

Xenobiotic Compounds

161

11.3

Cultivation of Microalgae in Wastewater

162

11.3.1

Factors Affecting the Growth of Microalgae

162

11.3.1.1

TN:TP Ratio

162

11.3.1.2

pH

162

11.3.1.3

Light

162

11.3.2

Algal Culture Systems

163

11.3.2.1

Open Systems

163

11.3.2.2

Closed Systems

164

11.4

Algae as a Source of Bioenergy

164

11.4.1

Biodiesel from Microalgae

165

11.4.2

Bioethanol from Microalgae

165

11.4.3

Biomethane from Microalgae

165

11.4.4

Hydrogen Production

165

11.4.5

Microbial Fuel Cells

166

11.5

Conclusion

166

References

166

Part IV

Bioleaching and Biosorption of Waste: Approaches

and Utilization

171

12

Microbes and Agri-Food Waste as Novel Sources of

Biosorbents

173

Simranjeet Singh, Praveen C. Ramamurthy, Vijay Kumar, Dhriti Kapoor,

Vaishali Dhaka, and Joginder Singh

12.1

Introduction

173

12.2

Conventional Methods for Agri-Food Waste Treatment

175

12.3

Application of the Biosorption Processes

176

12.3.1

Removal of Inorganic Pollutants

176

12.3.2

Removal of Organic Pollutants

177