Section I : Introduction 1. Drinking water contamination - An update on the technological status Section II : Arsenic Remediation 2. Arsenic Removal Technology using iron and manganese based natural adsorbents: An overview 3. Arsenic removal from drinking water using treated laterite based adsorbent 4. Development of community scale Arsenic Filter 5. Adsorbent assisted hybrid microfiltration technology using ceramic membrane for simultaneous arsenic and Iron removal for point-of- use application 6. Latest development in arsenic removal by membrane technology 7. Emerging technologies for arsenic removal suitable for small-scale and household purposes Section III: Treatment of priority chemical contaminants 8.
Fluoride removal from drinking water: Optimisation, field testing and performance comparison 9. Fluoride removal from drinking water by electrocoagulation process: Modelling and simulation through CFD approach. 10. Domestic and community models for treatment of arsenic and fluoride contaminated groundwater: A comparative assessment of performance activated alumina based systems under field condition 11. Ion Exchange Polymers: Versatile sorbents for water remediation Section IV: Disinfection techniques 12. Advancing household water treatment technologies for bacteria and virus removal from drinking water 13. Household and community models using elemental iron materials for removal of pathogens and chemical contaminants 14. Advances in electrodisinfection technique for drinking water treatment 15.
Recent advances on the technologies for the disinfection of drinking water Section V: Emerging Issues 16. Nanostructured materials for removal of geogenic contaminants from water 17. Separation of microbial and organic pollutants from water using low pressure tailor made membranes 18. Hybrid Ion Exchange Processes: From Decontamination to Desalination Section VI: Socio-technical and Sustainability Aspects 19. Socio-technical safe drinking water regime in Bangladesh: A post arsenic crisis analysis 20. Universal Design and Implementation Considerations.