Biotechnology approaches to industrial and pharmaceutical wastewater treatment [electronic resource] / Ajmer Singh Grewal, Geeta Deswal, Arun Lal Srivastav, editors.
- 其他作者:
- 其他題名:
- Advances in environmental engineering and green technologies (AEEGT) book series.
- 出版: Hershey, Pennsylvania : IGI Global 2025.
- 叢書名: Advances in environmental engineering and green technologies (AEEGT) book series
- 主題: Sewage--Purification. , Drugs--Environmental aspects. , Biotechnology--Environmental aspects. , Algae-Based Treatment Systems. , Biofilm Technology. , Bioremediation Harnessing Microorganisms. , Biotechnology. , Enzyme-Assisted Wastewater Treatment. , Heavy Metals. , Industrial Effluents. , Industrial Management. , Microbial Consortia. , Nutrients Removal. , Pharmaceutical Industry. , Pharmaceutical Wastewater Remediation. , Phytoremediation. , Synergistic Approaches. , Wastewater Treatment Processes. , Electronic books.
- ISBN: 9798369384893 (ebook)
- URL:
電子書(校內)
電子書(校外)
- 一般註:Includes bibliographic references and index. Foreword 1 -- Foreword 2 -- Preface -- Chapter 1. Role of Biotechnology in Wastewater Treatment: An Overview -- Chapter 2. Challenges in Pharmaceutical and Industrial Wastewater Treatment -- Chapter 3. Emerging Biotechnological Methods for Industrial Wastewater Treatment -- Chapter 4. Approach of Microbial Consortia in the Field of Industrial and Pharmaceutical Wastewater Remediation -- Chapter 5. Biofilm Technology for Wastewater Treatment -- Chapter 6. BiofiltrationTechniques for Industrial Effluent Treatment -- Chapter 7. Algae-Based Treatment Systems for Nutrients Removal From Industrial Effluents -- Chapter 8. Phytoremediation: Utilizing Plants to Treat Industrial Wastewater -- Chapter 9. Using Phytoremediation to Treat Industrial and Pharmaceutical Wastewater: Innovations and Future Prospects -- Chapter 10. Biotechnology Methods for API Removal From Pharmaceutical Wastewater -- Chapter 11. Biological Treatment Methods for Pharmaceutical Wastewater -- Chapter 12. Sustainable Wastewater Management in the Pharmaceutical Industry -- Chapter 13. Enzyme-Assisted Wastewater Treatment in the Pharmaceutical Industry -- Chapter 14. Synergistic Approaches for Wastewater Treatment -- Chapter 15. Bioinformatics in Monitoring and Enhancing Wastewater Treatment Processes -- Chapter 16. Challenges and Future of Biotechnology-Driven Wastewater Treatment for Sustainable Industrial Management -- Compilation of References-- About the Contributors -- Index. 114年度臺灣學術電子書暨資料庫聯盟採購
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讀者標籤:
- 系統號: 000327310 | 機讀編目格式
館藏資訊
Industrial and pharmaceutical wastewater can greatly benefit by advances in biotechnological approaches. By using various treatment technologies such as Biological Aerated Filters (BAFs), activated sludge systems, Membrane Bioreactors (MBRs), and anaerobic digestion, industrial and pharmaceutical may increase the effectiveness of their treatments. Emerging biotechnologies such as enzyme-assisted treatment, algae-based systems, and innovative bioremediation techniques are important for the effective development of sustainable wastewater management practices. Biotechnology Approaches to Industrial and Pharmaceutical Wastewater Treatment seeks to advance the implementation and optimization of wastewater treatment technologies by discussing the integration of green chemistry principles, circular economy concepts, and eco-friendly practices in wastewater management, along with eco-friendly methods like constructed wetlands and phytoremediation. By presenting the latest developments and emerging technologies, as well as addressing challenges and providing strategies for overcoming them, the book stimulates further research and innovation in the field of wastewater treatment. Covering topics such as microbial consortia, synergistic approaches, and heavy metal, this book is an excellent resource for industry practitioners, policymakers, non-governmental organizations, professionals, researchers, scholars, academicians, and more.
摘要註
"The objective of this book is to explore and elucidate advanced biotechnological approaches for the efficient treatment of industrial and pharmaceutical wastewater"--