1st Edition
Advanced Bioseparation of Industrial Wastes Sustainable Recovery of High-Value Metal Ions
Advanced Bioseparation of Industrial Wastes: Sustainable Recovery of High-Value Metal Ions examines resource recovery from a variety of industrial waste streams, including sludge and wastewater, with an emphasis on both the fundamentals and the more advanced concepts involved. Chemical leaching, waste treatment, and other processes for metal extraction are broken down into their component parts in great detail. Several important metals, such as lithium, copper, gold, platinum, nickel, zinc, chromium, uranium, cobalt, rhodium, and indium, could be salvaged from recyclables. The book presents the best practices for dealing with waste from industries such as those involved in the production of electronic goods, automobiles, batteries, as well as mining and electroplating industries. It provides readers with a comprehensive understanding of the many forms of industrial waste, including their composition, recycling processes, and the potential for recovery of essential metals, from the ground up.
- Provides updated occurrence and characteristics of a variety of high-value metal ions that can be recovered from different industrial wastes.
- Presents advanced chemical leaching technologies for those metal ions.
- Describes detailed accounts of physico-chemical-based reuse and recycle methodologies.
- Covers innovative approaches for the reutilization and management of industrial wastes.
1. Introduction: Environmentally-friendly recovery of high valued metal ions
Tripti De
2. Global strategies and statistics of biological separation of Metal ions from industrial waste. Sujoy Bose, Raj Kumar Das
3. Bioleaching: an advanced technique for the renewal of essential metals.
Angel Mathew, Anna Nova, Neetha John
4. Bioleaching of Lithium ions from Li-ion Battery waste
Kalaiselvam S,, Lakshmi Kanthan Bharathi A,, Mercy Jacquline B, Harish Kumar U,, Bhuvanesh M,
5. Biological recovery of gold from E-wastes
Pandya, Shivamkumar N.
6. Bioleaching of E-wastes: copper extraction.
G. Damaru Mani, Javvadi K J N S Thanishka, Ananya Namala, Reddem Poojitha Reddy, Jayato Nayak
7. Bioleaching of manganese from Industrial wastes
Anitha Thulasisingh and Trisha G
8. Bio-recovery of Nickel from Acid Mine Drainage
Shirsendu Banerjee, Suraj K Tripathy, Sankha Chakrabortty, Jayato Nayak
9. Microorganism enhanced recovery of zinc from mining waste
Somanchi Venkata Ramalakshmia, Aradhana Basua, Sankha Chakraborttyb, Jayato Nayakc
10. Bioleaching of municipal wastes: recovery of phosphorus
Dr Chandrima Roy, Prof Himabindu Vurimindi
11. Extraction of essential metals from electroplating sludge by bioleaching
Sujoy Chattaraj, , Anoar Ali Khan
12. Indium recovery from mining discards using Bioleaching
Sonai Dutta and Abhijit Bandyopadhyay
13. Biological extraction of Chromium from industrial wastes
Moumita Sharma, Souptik Bhattacharya, Sanjukta Banik3, Shaoli Das4
14. Recovery of Uranium from Mine discards through bioleaching
Zunipa Roy
15. Bioleaching of spent automobile catalyst: recovery of palladium.
Dr. Tripti De
16. Micro-organism based leaching of Industrial waste for the recovery of cobalt
Satyabrata Si, Sankha Chakrabortty
17. Bioleaching, an alternative tool for recovery of Platinum Group Metals Recovery from industrial waste: An overview
Soumya Banerjee, Sankha Chakrabortty, Prsenjit Chakraborty3, Jayato Nayak4
18. Bioleaching of Laterite ore for extraction of valuable metal ions
Tulsi Kumar, Jyoti Gulia, Yashika Rani, Amit Lath, Preeti Kumari, Nater Pal Singh and Anita Rani Santal
Biography
Dr. Jayato Nayak, is a prominent researcher with more than 9 years of experience in the field of novel design and applications embracing the theme of process intensification. He completed his M.Tech & PhD from NIT Durgapur on "Process Intensification in Acetic acid manufacture from waste material" and collaborated his research with CSIR-CMERI. His core expertise includes Process Intensification, Bioprocess Engineering, water and wastewater treatment, graphene integrated photocatalyst development and biosynthesis of value-added products. Currently, along with the national collaboration with IITs, NITs and CSIR Labs, he has extended research collaborations with research professionals in Poland, Brazil, Malaysia, Vietnam etc. By August 2022, he has published 25 international SCI/SCOPUS indexed peer reviewed journal papers, more than 20 book chapters and filed 3 patents. As of now, with huge number of citations, he is having high h-index and i10- index. He provides expertise for several Webinars and FDPs; and as a Senior Editor, Review Editor, Guest Editor, Editorial board member and recognized reviewer of more than 15 international journals. He has received two best research awards and five distinguished awards from various national and international organizations.
Dr. Sankha Chakrabortty is assistant professor at the School of Biotechnology/Chemical Technology, KIIT University, India. He is a renowned researcher with over 10 years of expertise in the domains of Environmental Engineering and Green Technology. He has had his research published in over 32 SCI/SCOPUS indexed high impact factor journals and has filed seven patents. He has garnered 14 awards/achievements from different organizations over the course of his ten-year research career. He received the Springer's "Best Paper Award-2015" in 2015, and the "Best Researcher Award- 2020" from an international organisation in 2021, as well as the "NESA Young Scientist of the Year 2020" from the National Environmental Science Academy. In addition, Dr. Chakrabortty received an award from KIIT University in the field of "STE-Young Scientist Award (Faculty Category)" for his remarkable research effort.
Suraj Kumar Tripathy currently works as Associate Professor and associate dean at the School of Chemical Technology and School of Biotechnology, KIIT University where he heads Chemical & Bioprocess Engineering Lab. His area of research is processing of nanomaterials for water treatment, heterogeneous catalysis and biomedical applications. He works closely with chemical and mineral industries to investigate the management of industrial wastes. He has published his research work in more than 60 SCI/scopus journals and also filed 8 Patents based on his research development out of which two patents have been granted by the authority. He has already finished four high-value projects as the principal investigator, and currently, three projects with a total value of three crores of Indian rupees are under his supervision. He is involved in a number of research partnerships with a variety of universities and research labs located in India as well as universities located in other countries. He is working on a couple of initiatives in other countries.
Maulin P Shah is an active researcher and scientific writer in his field for over 20 years. He received a B.Sc. degree (1999) in Microbiology from Gujarat University, Godhra (Gujarat), India. He also earned his Ph.D. degree (2005) in Environmental Microbiology from Sardar Patel University, Vallabh Vidyanagar (Gujarat) India. His research interests include Biological Wastewater Treatment, Environmental Microbiology, Biodegradation, Bioremediation, & Phytoremediation of Environmental Pollutants from Industrial Wastewaters. He has published more than 350 research papers in national and international journals of repute on various aspects of microbial biodegradation and bioremediation of environmental pollutants. He is the editor of 175 books of international repute (RSC, Wiley, DeGruyter, Elsevier, Springer, and CRC Press). He has edited 25 special issues specifically in Industrial Wastewater Research, Microbial Remediation, Biorefinery of Wastewater Treatment area. He is associated as an Editorial Board Member in 25 highly reputed journals of Elsevier, Springer, Taylor & Francis, Wiley.
