Table of Contents
Part 1: E-waste generation, recycling and management1. Current situation and importance of e-waste recycling and management
2. Formalization of the informal e-waste recycling sectors
3. Building capacity to manage e-waste
4. Role of government regulations in e-waste management
Part 2: Hazardous chemicals in e-wastes/Health issues in e-waste recycling
5. The emission pathways from E-waste (i.e. possible emissions to air, soil and water) due to landfilling, informal recycling, fire incidents
6. Chemical substances and hazardous materials in e-waste, health related issues, informal recycling risk, and emission pathways
7. Electronic waste and its leachates impact on health and ecosystem
8. Controlling e-waste hazards and risks and stakeholders responsible for the regulations of toxic substances from e-wastes
9. Health after-effects of constant exposure to e-wastes
Part 3: Opportunities/challenges in e-waste recycling and management
10. Social aspects of e-waste recycling and management
11. Emerging e-waste recycling technologies
12. Addressing risks of and opportunities for multisectoral action. what actors can do regarding proliferation of e-wastes
13. Recovery of valuables and critical metals and economic assessment of e-waste recycling
14. Leveraging the circular economy in addressing global e-waste problems
15. E-waste and its relationship to the Sustainable Development Goals (SDGs)
16. Economic and environmental benefits of e-wastes recycling and management in the developing countries
17. Life cycle environmental and cost impact of e-waste recycling (LCA and LCC)
18. Techno-economic assessment/consideration of different recycling techniques for e-waste
19. Redesigning electrical and electronic devices for reuse and longevity
20. Measuring e-waste global and key statistics and its legislation and transboundary movement
21. Case studies of e-waste recycling and management
21-1. Case studies related to fire incidents in e-waste management centers/landfills
21-2. Case studies regarding the sustainability impact assessment of recycling e- waste.
22. Sustainability/regulatory related tools of e-waste recycling and management
23. Current challenges, future opportunities and overall conclusion of e-waste recycling and management
Authors
Olusola Olaitan Ayeleru Senior Research Associate, Centre for Nanoengineering and Advanced Materials (CeNAM), University of Johannesburg, South Africa.Dr. O.O. Ayeleru is a SEnior Research Fellow at the Centre for Nanoengineering and Advanced Material, Department of Engineering Metallurgy, University of Johannesburg, South Africa. He obtained his B.Eng. degree in Chemical Engineering from the Federal University of Technology, Yola, Adamawa State, Nigeria, and MTech. and PhD degrees from the University of Johannesburg, Johannesburg, South Africa. His field of research is in the Advanced Materials Synthesis, Municipal Solid Waste Management, Soft-Computing Applications, Fruit and Vegetable Research, Water and Wastewater Treatment, Electrical Energy Consumption and Renewable Energy Research. He was part of the team who developed a Feasibility Study Report on Biomethane Generation from Municipal Organic Solid Waste for the City of Johannesburg in 2016 and is a co-innovator of a patented innovation (filed in South Africa).
Sadanand Pandey Professor, Shoolini University, India.Sadanand Pandey is a Professor in the School of Bioengineering and Food Technology at Shoolini University. He brings over 12 years of expertise to the field of Materials Science, specialising in organic-inorganic nanocomposites with applications in water purification, nanosensors, energy, and biomedicine. He completed his PhD at the University of Allahabad and then became a UGC-Kothari fellow at the prestigious Indian Institute of Science, Bangalore. He continued his academic journey with international experiences, including a research professorship at Yeungnam University in South Korea from 2019 to 2023. He also had a stint at the University of Johannesburg, South Africa, from 2014 to 2018. Throughout his career, he received prestigious fellowships, including the DST/NRF Innovation Fellowship in South Africa, Dr Kothari's Postdoctoral Fellowship in India, and JRF and SRF fellowships from DST, India. He contributed significantly to research projects funded by the National Research Foundation (NRF) and the Korea Institute of Marine Science & Technology Promotion (KIMST) in South Korea. His primary research areas include polymer science, nanotechnology, and nanocomposites, composite materials, and surface modification. His recent work has explored hydrogels for applications in nutrient recovery, controlled drug delivery, water purification, and biomedicine. He has also delved into the development of photocatalysts with implications for nanotechnology, energy research, and environmental science. Prof. Pandey has authored more than 250 publications in peer-reviewed journals and international conferences. His scholarly contributions have garnered more than 9000 citations on Google Scholar in the past five years. Additionally, he is a guest editor for various scientific journals, including Materials Letters, Frontier in Chemistry, Biosensors, Chemosensors, Water, Materials, Molecules, and Polymers. He is an active member of scientific communities, including The Korean Society of Industrial and Engineering Chemistry, the Royal Society of Chemistry (RSC), the American Chemical Society, the Indian Science Congress Association (ISC), and the Materials Research Society of India (MRSI). He has received the Young Scientist award at the Indian Science Congress in India and has been recognised among the top 2% of scientists worldwide for year (2019, 2020, 2021, 2022 & 2023) in subject-wise analyses conducted by Stanford University. He has also authored more than 20 book chapters on advanced materials and technology for esteemed publishers in the USA. He has presented at numerous domestic and international conferences. Pandey has reviewed over 2000 articles while serving as a reviewer for over 300 internationally renowned scientific journals and research foundations.
Peter Apata Olubambi Professor, Centre for Nanoengineering and Advanced Materials (CeNAM), University of Johannesburg, South Africa.Professor Peter Olubambi obtained BEng (Hons), MEng and PhD in Metallurgical and Materials Engineering. He is a Professor of Materials Engineering and is presently the Director of the Centre for Nanoengineering and Advanced Materials, as well as the Head of the School of Mining, Metallurgy and Chemical Engineering at the University of Johannesburg (UJ). His research activities focus on three key and interrelated fields of advanced materials processing; Powder Metallurgy, Nanomechanics and Tribocorrosion. His research efforts centered on the utilization of innovative powder metallurgical techniques for developing nanoengineered materials for automotive, aerospace, microelectronics, mines, energy storage, chemical and allied industries as well as for biomedical applications. He is a vibrant scholar and an NRF-rated researcher (C2). Through the various funding he has attracted, he has established a hi-tech powder metallurgy research laboratory at the Tshwane University of Technology, and the laboratories for Nanoengineering and Advanced Materials Research at UJ. He is an editorial board member of two international journals, a reviewer to many high impact factor journals, and has served as an organizing committee member to many local and international conferences. Over the past 10 years, he has graduated 36 master's students, 22 doctoral students, and mentored six postdoctoral research fellows; 16 of these young, multicultural, and multinational persons currently hold academic positions as lecturers, senior lecturers, and associate professors within the South African HEI sector and outside South Africa. Prof Olubambi is currently supervising and co-supervising 21 doctoral students, 19 master's students and mentoring 11 postdoctoral research fellows.
