Green Technologies and Innovative Future for Waste Management: Development in Wastewater Treatment Research and Processes delves into the global movement towards sustainability, focusing specifically on the critical role of green technologies within waste management. The book recognizes the growing urgency brought about by increased industrial activity and the unregulated discharge of pollutants, and thus, explores alternative methodologies that emphasize renewable resources. It offers a comprehensive look at how innovative solutions can help address environmental challenges, making it a valuable resource for those interested in tackling pressing ecological concerns through sustainable practices.
Beyond its focus on wastewater and agricultural waste remediation, the book serves a broad audience, including researchers, scientists, academicians, environmentalists, and industry professionals. It aims to bridge the gap between scientific research and policy, providing insights into the paradigm shift toward environmental sustainability. The text highlights the importance of green and bio-based technologies for a resilient economy, offers guidance for students and faculty members, and examines future trajectories in sustainable waste management, fostering a diverse and informed readership.
1. Bioremediation strategies via utilizing microorganisms for wastewater
remediation
2. Advancements in new technologies to attain efficient upscaling of
wastewater treatment
3. Solid waste management a step towards eradicating the agricultural waste
4. Biological Innovations: Transforming Metal, Metalloid, and Radionuclide
Remediation
5. Understanding Polycyclic Aromatic Hydrocarbons (PAHs) and Petroleum
Sludge: Sources, Environmental Concerns, and Remediation Strategies
6. Management of agricultural waste via its utilization in biorefinery
7. Role of Microorganism: a critical foundation for biofuel production
8. Unravelling microbial metabolic pathways to unlock biofuel and high-value
product synthesis
9. Biological degradation processes of plastic an insight into various
scientific strategies
10. Microbial plastic decomposition and unravelling the biological mechanisms
behind plastic waste degradation
11. Microbial biofertilizers for sustainable agriculture - Plant-microbe
symbiosis for enhanced soil health and crop production
12. Microbial electrochemical systems: harnessing microbial electron transfer
for bioelectricity
13. Green infrastructure a futuristic approach towards a transformative urban
environment
14. Biobased products in the market: a step towards sustainable marketing
15. Biological Innovations on the Horizon: Anticipating Next-Generation
Sustainable Solutions in Life Sciences
16. Green technologies: The Magical Wand for Sustainable Agricultural
Development and Environment Protection
17. Recent advances in microbial fuel production from waste: An eco-friendly
approach for future energy
18. Green Urban Planning and Designing by Implementing the Principle of
Sustainability
Dr Komal Agrawal has received her BSc and MSc in Microbiology from the University of North Bengal and Sikkim University (A Central University) respectively. In 2021 she received her PhD from the Department of Microbiology, Central University of Rajasthan, India. She is currently working as Assistant Professor in Department of Microbiology, at Lovely Professional University, India. The research specialization is focused on mycology, enzymology, laccase, bioremediation, proteomics, and designing bio-based applications based on environmental sustainability. The work has resulted in publications of research articles and review papers. Further, in 2023 she has been recognized within the Standford list of the top 2% of scientist globally and was also awarded the Aditi Pant Women Scientist Award 2023 at the ICMBSDG 2023. She has also contributed in several book chapters covering diverse domains. Alongside involvement in the laboratory and collaborations has resulted in the co-authored publication as well.
Pradeep Verma is currently the Group Leader at the Bioprocess and Bioenergy Laboratory, Department of Microbiology, at the School of Life Sciences in Central University of Rajasthan (CURAJ). He is a distinguished fellow of several professional organizations, including the Mycological Society of India (MSI Fellow, 2020), the Biotechnological Research Society of India (BRSI Fellow, 2021), and the Association of Microbiological Sciences, India (AMSc, AMI, India, Fellow, 2021). He is the recipient of the Prof. P.C. Jain Memorial Award, by the Mycological Society of India (PCJ-Memorial Award, 2021) and also the recipient of the Ron Cockcroft Travel Award by the Swedish Society, Sweden (2005) In addition, he received the Bridge Fellow JSPS Award in 2022 and conducted joint research work at Kyoto University in Japan. Recently, he was also nominated as a fellow of the International Academy of Wood Sciences (IAWS Fellow 2024), Fellow of the National Academy of Biological Sciences (NABS Fellow 2023) and Fellow of the Association of Fungal Biologist (AFB Fellow 2023).
His areas of expertise include microbial diversity, bioremediation, bioprocess development, lignocellulosic, and algal biomass-based biorefineries. He holds several national and international patents in the field of microwave-assisted biomass pretreatment and bio-butanol production.
Dr. Maulin P. Shah is an active researcher and microbial biotechnologist with diverse research interest. His primary interest is the environment, the quality of our living resources and the ways that bacteria can help to manage and degrade toxic wastes and restore environmental health. Consequently, His work has been focused to assess the impact of industrial pollution on microbial diversity of wastewater following cultivation dependant and cultivation independent analysis.
