Tyagi / Tiwari / Yan | Current Developments in Biotechnology and Bioengineering | Buch | 978-0-12-819722-6 | www.sack.de

Buch, Englisch, 668 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 1285 g

Tyagi / Tiwari / Yan

Current Developments in Biotechnology and Bioengineering


Erscheinungsjahr 2020
ISBN: 978-0-12-819722-6
Verlag: Elsevier Science & Technology

Buch, Englisch, 668 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 1285 g

ISBN: 978-0-12-819722-6
Verlag: Elsevier Science & Technology

Current Developments in Biotechnology and Bioengineering: Environmental and Health Impact of Hospital Wastewater narrates the origin (history) of pharmaceuticals discoveries, hospital wastewater and its environmental and health impacts. It covers microbiology of hospital wastewater (pathogens, multi-drug resistance development, microbial evolution and impacts on humans, animals, fish), advanced treatment options (including biological, physical and chemical methods), and highlights aspects required during hospital wastewater treatment processes. This book provides an amalgamation of all recent scientific information on hospital wastewater which is not available in the current literature.

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Zielgruppe

Undergraduate, graduate students, researchers, wastewater treatment professionals.

Autoren/Hrsg.

Tyagi, R. D.
Tiwari, Bhagyashree
Yan, Song
Drogui, Patrick
Zhang, Xiaolei
Pandey, Ashok

Fachgebiete

Weitere Infos & Material

1. Introduction to wastewater microbiology: special emphasis on hospital wastewater

1.1 Introduction

1.2 History of wastewater origin and treatment

1.3 History of microbiology and pathogens discovery

1.4 Antibiotic discovery

1.5 Pharmaceuticals in hospital wastewater

1.6 Presence of pharmacological substances in aquatic environment

1.7 Conclusion and future perspectives

Abbreviations

References

2. Pharmaceutical metabolites and their by-products in hospital wastewater

2.1 Introduction

2.2 Pharmaceutical metabolites and their classification

2.3 Route of entry and fate of pharmaceutical compounds

2.4 Metabolism and transformation mechanism of pharmaceutical compounds

2.5 Ecotoxicity of pharmaceutical compounds

2.6 Detection of pharmaceutical compounds

2.7 Conclusions and perspectives

Abbreviations

References

3. Physical, chemical, and biological impact (hazard) of hospital wastewater on environment: presence of pharmaceuticals, pathogens, and antibiotic-resistance genes

3.1 Introduction

3.2 Pharmaceuticals and pathogens in hospital wastewater

3.3 The development of antibiotic resistance genes

3.4 The transportation of pharmaceuticals and pathogens in the environment

3.5 The prevention of pharmaceuticals and pathogens into environment

3.6 Conclusions and perspectives

References

4. Microbiology of hospital wastewater

4.1 Introduction

4.2 Microorganisms and pathogens originating from hospital wastewater

4.3 Antibiotic-resistance genes prevalence in environment

4.4 Tools used to identify antibiotic-resistance genes

4.5 Metagenomics of hospital wastewater

4.6 Horizontal gene transfer

4.7 Emerging infectious particles

4.8 Conclusions and perspectives

Abbreviations

5. Fate of pathogens and viruses in hospital wastewater and their treatment methods

5.1 Introduction

5.2 Pathogen surveillance and detection in hospital wastewater

5.3 Types of pathogens present in hospital wastewater

5.4 Treatment methods available for pathogens present in hospital wastewater

5.5 Treated water monitoring and analysis

5.6 Summary

5.7 Conclusions and perspectives

Abbreviations

References

6. Multidrug-resistant genes and pathogenic bacteria in hospital wastewater

6.1 Introduction

6.2 Origin and mechanism of drug resistance

6.3 Antifungal drug resistance

6.4 Antibiotic-resistance bacteria

6.5 Antibiotic-resistance genes

6.6 Conclusions and perspectives

Abbreviations

References

7. Cancer treatment drugs and endocrine-disrupting chemicals release and fate in hospital wastewater

7.1 Introduction

7.2 List of chemicals released in the hospital wastewater

7.3 Endocrine-disrupting chemicals

7.4 Challenges in hospital wastewater treatment

7.5 Conclusions and perspectives

Abbreviations

References

8. Pharmaceuticals roles in microbial evolution

8.1 Introduction

8.2 Microbial evolution and adaptation

8.3 Aquatic environment microbiology

8.4 Soil microbiology

8.5 Effect on plants, animals, and humans in long run

8.6 Conclusions and perspectives

Abbreviations

References

9. Present scenario of antibiotic use in veterinary practice: importance of wastewater microbiology

9.1 Introduction

9.2 Antibiotic released in veterinary applications

9.3 Microbial association with animals

9.4 Dissemination of animal pathogens to environment

9.5 Animal viruses in wastewater

9.6 Recent studies on wastewater associated with animals

9.7 Molecular detection of veterinary pathogens

9.8 Policy interventions in animal health

9.9 Conclusions and perspectives

Abbreviations

References

10. Bacteriophages isolated from hospital wastewater and its role in controlling drug-resistant pathogens

10.1 Introduction

10.2 Background of bacteriophages (?)

10.3 Classification of bacteriophages

10.4 Phages commonly found in hospital wastewater

10.5 Role of phages in drug-resistance gene transfer

10.6 General (vast) applications of bacteriophages in different fields

10.7 Limitations of phage use in real world applications

10.8 Removal of phages from wastewater treatment plant

10.9 Conclusions and perspectives

Abbreviations

References

11. Development of molecular methods to detect and control emerging drug-resistance pathogens

11.1 Introduction

11.2 Antibiotic-resistance gene-carrying plasmidome in the cultivable microbial community

11.3 Molecular tools/biosensors development for detection

of drug-resistance bacteria and genes

11.4 Recent approaches to control drug resistance development

11.5 Conclusions and perspectives

Abbreviations

References

12. Riboswitches and aptamers: potential future targets

to control drug-resistant bacteria

12.1 Introduction

12.2 History of riboswitches and aptamers

12.3 Role of riboswitches

12.4 Applications of aptamers

12.5 Engineering bacteria using riboswitches and aptamers

12.6 Conclusions and perspectives

Abbreviations

References

13. Treatment of wastewater containing pharmaceuticals: biological treatment

13.1 Introduction

13.2 Activated sludge process

13.3 Sequential batch reactor

13.4 Membrane bioreactor

13.5 Fluidized bed biofilm reactor and moving bed biofilm

reactor

13.6 The impact of property of pharmaceuticals on the removal

13.7 Novel methods and advanced treatment options

13.8 Engineering aspects to improve pharmaceuticals removal with biological process of wastewater treatment

13.9 Technical and economical evaluation of biological processes

13.10 Treatment systems for small flows

13.11 Effect of climate change on the microbiology of the biological treatment process in removing the pharmaceuticals

13.12 Conclusions and perspectives

Abbreviations

References

Further reading

14. Role of chemical treatments in pharmaceuticals degradation and its consequences and environmental risks

14.1 Introduction

14.2 Photocatalysis

14.3 Fenton-type processes

14.4 The electrochemical advance oxidation process

14.5 Treatment of pharmaceutical pollutants by combined wastewater treatment processes

14.6 By-products identification

14.7 Technoeconomic comparison for various hospital wastewater treatment processes

14.8 Challenges in the treatment process

14.9 Conclusion and perspectives

References

Further reading

15. Hospital wastewater treatment scenario around the globe

15.1 Introduction

15.2 Global scenario of hospital wastewater treatment

15.3 Status of hospital wastewater management in developed countries

15.4 Status of hospital wastewater management in developing countries

15.5 Other countries

15.6 Conclusions and perspectives

Abbreviations

References

16. Guidelines for hospital wastewater discharge

16.1 Introduction

16.2 Guideline of hospital wastewater discharge to municipal sewer

16.3 On-site treatment of hospital wastewater

16.4 Worker's health and safety principles

16.5 Conclusions and perspectives

Abbreviations

References

17. Future impacts and trends in treatment of hospital wastewater

17.1 Introduction

17.2 Emerging infectious diseases

17.3 Threats

17.4 Required research action and proposed remedies

17.5 Effect of global warming on pathogens survival

17.6 Conclusions and perspectives

Abbreviations

References

Pandey, Ashok
Prof. Ashok Pandey is currently Executive Director, Centre for Energy and Environmental Sustainability-India, Lucknow. His major research and technological development interests are industrial and environmental biotechnology and energy biosciences, focusing on biomass to biofuels and chemicals, waste to wealth and energy, etc.

Tiwari, Bhagyashree
Dr. Bhagyashree Tiwari received her Ph.D. in water sciences from Institut national de la recherche Scientifique (INRS), Université du Québec, Canada in 2020. Her research work focuses on the development as well as optimization of various water and wastewater treatment techniques, production of value-added products, such as, biopolymers from waste, identification, and characterization of microscopic organisms and on molecular biology approach for emerging contaminant removal. Previously, Dr. Tiwari was a MITACS-ELEVATE Postdoctoral Fellow at INRS, Université du Québec, Canada. She has published several peer-reviewed journal papers, over 15 book chapters, edited 1 book and has presented in many national and international conferences. She is also the recipient of several awards, prominent among them are the Philip Jones award from Canadian Association on Water Quality in 33rd Eastern Canadian Symposium on Water Quality Research, best oral research presentation award in 7th International forum on Industrial Bioprocess in Wuxi, China. She received the prestigious mobility grant from Venice International University, Italy.

Yan, Song
Dr Yan Song research focuses on: the production of bioplastics, biodiesel, value added products using wastewater and sludge (biosolids), greenhouse gas emissions from wastewater and sludge treatment processes; and wastewater and sludge treatment process control. Dr. Yan has published 76 papers in refereed journals and presented 60 papers in national and international conferences. She is author of 2 books, 40 book chapters, and many scientific reports. Dr. Yan was part of the team which received the Superior Achievement Award for Excellence in Environmental Engineering and Science in 2010 and 2015 from American Academy of Environmental Engineers and Scientists (AAEES) for University Research work. She was selected as an Outstanding Reviewer of the ASCE's Journal of Environmental Engineering in 2012, and is the member of Canadian Association for Water Quality (CAWQ) and International Water Association (IWA).

Drogui, Patrick
Patrick Drogui is professor and researcher at the Institut national de la recherche scientifique's Centre Eau Terre Environnement. He is an internationally recognized expert in electrochemical and membrane technologies, and oxidative processes for different applications in water treatment from industrial wastewater to potable water. The originality of his research work lies in the development of advanced electrolytic processes for water and wastewater treatment requiring no or minimum addition of chemical products. Co-inventor on 8 patents, Dr. Drogui is currently working on new electrolytic and/or membrane, photo-catalytic, and electro-photo-catalytic processes for water treatment, and the removal of phosphate and emerging contaminants. Prof. Drogui is the author of more than 260 papers published in scientific refereed journals. He is an author of 16 book chapters and 54 industrial and scientific reports. Prof. Patrick Drogui received 4 fellowships and 2 awards for the best research project from Pollutec and for the best paper published in Water Environment Federation, delivered 17 invited conferences and 119 communications and conferences. Prof. Patrick Drogui is a director of CREATE-Program in Environmental Decontamination Technologies and Integrated Water and Wastewater Management (TEDGIEER). Collaborative Research and Training Experience Program (CREATE) from National Science Engineering Research Council (NSERC) of Canada.

Zhang, Xiaolei
Dr. Xiaolei Zhang is currently working in Harbin Institute of Technology (Shenzhen) as assistant professor. She received her Ph.D in Water Science from INRS University of Quebec in 2014. Her research work focuses on municipal wastewater and industrial wastewater treatment; micro-electrolysis for wastewater treatment; advanced oxidation. Dr. Zhang has published more than 40 peer-reviewed journal papers, 9 book chapters, and many conference presentations.

Tyagi, R. D.
Prof. R. D. Tyagi is an internationally recognized Professor of Biochemical Engineering and biotransformation with 'Institut national de la recherché Scientifique - Eau, terre, et environnement', (INRS-ETE), University of Québec, Canada. He also holds Adjunct Professor position at the University of Missouri-Columbia, USA. Prof Tyagi has published over 600 papers/communications, which include 21 books, 75 book chapters, 10 research reports, nine patents, etc. He is Associate Editor of ''Practice Periodical of Hazardous, Toxic & Radioactive Waste Management- Am.Soc.Civil Engineering'' and serves on the editorial board of Process Biochemistry and Bioresource Technology. He has been recognised by many national and international awards and honours. He is member of ''European Academy of Sciences and Arts''. He conducts research on hazardous/solids waste management, water/wastewater treatment, and wastewater sludge treatment/disposal, bioconversion of wastewater and wastewater sludge into value added products.

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