- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
Examines the strategic and economic viability of wastewater treatment processes
Wastewater to Resource Recovery comprehensively explores the economic viability of the processes used for wastewater treatment, discussing strategies, limitations in conventional treatment, recent methods for resource recovery, and relevant analysis of treatment for wastewater management. The book interweaves case studies across chapters showing the centralized and decentralized treatment processes as standalone processes as well as combinatorial multistep processes.
This book includes information on:
The scale-up potential of various wastewater treatment technologies
Background and comparative assessments of conventional technologies with known economic viability and cutting-edge technologies with unknown economic viability
Differences between linear and circular economy with a focus on resource recovery from domestic and industrial sectors
Importance of the circular economy for resource and energy recovery from wastewater, and related governmental regulatory implications
This reference is essential for researchers within a broad domain of various treatment processes of wastewater and resource recovery. Postgraduate and doctoral students in related fields and executives and researchers from municipal corporations planning the construction of wastewater treatment plants will also find it valuable.
Contents
List of Contributors xi
Preface xxi
Acknowledgments xxiii
1 The Centralized Systems and Strategies for Wastewater Treatment: Overview 1
Srishti Mishra, Anil Dhanda, Brajesh K. Dubey, and Makarand M. Ghangrekar
2 Linear and Circular Economy Strategies for Waste Treatment: Fundamentals 17
Abhishek, Anag Katiyar, Ishwar Sharan, Tezna Singh, Hanshika, Parul, Ashish Yadav, and Vimal Chandra Srivastava
3 Infrastructure Requirement and Regulatory Framework for Wastewater Management System 73
Utkarsh Dubey, Divyani Pathak, Sanjay Kumar Gupta, and Bhaskar Singh
4 Sewage Composition and Treatment: Economic Burden and Future Implications 95
Soumyajit Chandra, Soumya Pandit, and Abdurrasheed Abubakar Yunus
5 Conventional Physical and Chemical Treatment Technologies and Economic Implications 119
Mohamed Sameh El-harty, Ahmed Salah Elkomy, and Nabila Shehata
6 Conventional Biological Treatment Technologies and Economic Implications 145
Sachin Chunchu, Soubhagya Nayak, Nayan Babulal Gadling, Sudipa Bhadra, Soujanya Jonnalagadda, Venkateswara Rao Polisetty, and Surajbhan Sevdav
7 Composition of Industrial Wastewater and Its Conventional Treatment Facility 167
Heba A. Younes and Nabila Shehata
8 Legal Framework and Industrial Insight for Treatment of Waste 189
Saji Simon, Bibin K. Suresh, Anusree P. C., Anantha Singh T. S., George K. Varghese, and Nidheesh P. V.
9 Industrial Wastewater Treatment: Environmental and Economic Implications 213
Mona Ebaid, Ghada Abdallah, Nabila Shehata, and Michael Kornaros
10 Case Study for Wastewater Treatment 235
Nabila Shehata and Rania Osama
11 Sewage a Wasting Resource: Need to Rethink 253
Olfat Saied, Tabbi Wilberforce, and Nabila Shehata
12 Wastewater as a Source of Different Forms of Energy: Resource Recovery, Circular Economy and/or Cleaner Production Perspectives from the Mining and Food Processing Industry 269
Quinnetta Blessing Clement, Abayomi B. C. Grant, Abubakar M. Bilyaminu, Hector García Hernandez, Alka A. Mungray, Arvind Kumar Mungray, Eldon R. Rene, and Anina James
13 Utilization of Industrial Wastewater as an Input for Resource Recovery 295
Ahmed Salah Elkomy and Nabila Shehata
14 Decentralized Systems for Resource Recovery: Water Recovery Strategies from Wastewater 313
Upexa Patel, Ambika Arkatkar, Pankaj Pardeshi, Alka A. Mungray, and Arvind Kumar Mungray
15 Conversion Strategies for Utilization of Wastewater as a Fertilizer 337
Sudeeptha Girijan, K. Hasim Suhaib, M. Devasena, and Praveena Gangadharan
16 Contribution of Modern Biological Sewage Resource Recovery Technologies in Circular Economy of Water 369
Minh-Ky Nguyen, Quoc-Minh Truong, The-Anh Luu, Van-Giang Le, Hoang-Lam Nguyen, Minh-Thuan Pham, and D. Duc Nguyen
17 Adopting Conventional and Modern Water Treatment Technologies to Achieve Circular Economy by Resource Recovery 385
Hebatullah H. Farghal, Asmaa Ali, Nabila Shehata, and Mayyada El-Sayed
18 Resource Recovery from Urine and Fecal Material at On-site Treatment and Its Economic Evaluation: A Case Study 401
Zavin Gajera, Monali Chhatbar, Ambika Arkatkar, Alka A. Mungray, and Arvind Kumar Mungray
19 Technologies for Treatment of Wastewater: Scale-up Plant 427
Nabila Shehata
20 Membrane Technology Enhanced by Nanostructures for Wastewater Circular Economy 455
Alaa El Din Mahmoud, Nourhan S. Sultan, Nikolay G. Chechenin, Mayar M. Osman, E. M. El-Maghraby, and E. M. Elsehly
21 Economic Benefits of Source Separation of Wastewater 495
Anushree R. Gahlowt, Ambika Arkatkar, and Anand Kishore Kola
22 Integration of Different Technologies to Enhance the Efficiency of Wastewater Treatment 517
Nabila Shehata and Davidson Egirani
23 Utilization of Artificial Intelligence (AI) for Modernization of Wastewater Treatment and Resource Recovery 533
Priyanka Ray Choudhury, Muskan Syed, Alakto Choudhury, Sheetal Kumari, Abhishek Sengupta, Priyanka Narad, Smriti Agarwal, and Manoj Chandra Garg
24 Sustainability and Interdependency of Multi-step Scale Up of Wastewater Treatment Technologies 561
Ambika Arkatkar, Dipak A. Jadhav, Mohammed Hussein, Hai Yen Nguyen, Tasnim Eisa, Ahmed Bahaa, Arvind Kumar Mungray, and Kyu-Jung Chae
25 Government Strategies to Economically Support the Cleaning of Water Bodies in India 575
Abdul Gani, Athar Hussain, and Shray Pathak
Index 597
