IWWA | 2025

"Water 360: Innovative Technologies in Water, Wastewater, Treatment and Sustainable Management"

1.1. Advanced filtration and purification technologies
1.2. Emerging chemical and biological treatment method
1.3. Desalination techniques and improvements
1.4. Membrane filtration advancements
1.5. Nanotechnology in water purification
1.6. Electrochemical water purification
1.7. Ultraviolet (UV) disinfection
1.8. Nanotechnology in water treatment

2.1. Reverse Osmosis (RO) desalination techniques
2.2. Thermal desalination techniques
2.3. Hybrid desalination systems
2.4. Energy efficiency in desalination techniques

3.1. Biological Treatment Methods
3.2. Chemical and Physical Treatment Processes
3.3. Industrial Wastewater Treatment Solutions
3.4. Innovations in Sewage Treatment

4.1. Smart waters meters
4.2. Advanced leak detection systems
4.3. Remote monitoring and control systems
4.4. Predictive analysis and AI
4.5. Distributed water treatment system
4.6. Water quality sensors and IoT Network
4.7. Blockchain technology for water management
4.8. Energy recovery System

5.1. Wastewater treatment and management
5.2. Decentralized wastewater systems
5.3. Bioremediation and natural treatment processes
5.4. Cutting-edge biological and chemical treatment processes
5.5. Innovations in industrial and municipal wastewater management
5.6. Strategies for wastewater recycling and reuse

6.1. Watershed management and conservation practices
6.2. Water-Energy nexus
6.3. Urban water management
6.4. Agricultural water management
6.5. Rural water management
6.6. Sustainable groundwater managements

7.1. Water conservation techniques
7.2. Rainwater harvesting techniques
7.3. Greywater recycling techniques
7.4. Water footprint assessment
7.5. Groundwater recharge techniques
7.6. Climate change impacts on water resources

8.1. Emerging contaminants: Detection and removal
8.2. Strategies for reducing industrial water pollution
8.3. Policies and regulations for water pollution control
8.4. Real-time monitoring and sensor technologies
8.5. Addressing emerging contaminants and microplastics in water bodies
8.6. Mitigating pollution from agricultural and industrial sources
8.7. Pharmaceutical and personal care products (PPCPs) in water
8.8. Heavy metals and toxic chemicals removal
8.9. Advanced oxidation processes (AOPs)
8.10. Endocrine-disrupting chemicals (EDCs)

9.1. Internet of Things (IoT) and smart sensors in water management
9.2. Big data analytics and AI for water management
9.3. AI in water treatment
9.4. Real-time monitoring and control systems
9.5. Smart metering and water usage monitoring
9.6. Smart leak detection systems
9.7. AI for optimization of design of water infrastructure

10.1. Impact of climate change on water availability
10.2. Extreme weather events and water management strategies
10.3. Adaptive water management strategies
10.4. Building resilient infrastructure for water supply systems
10.5. Drought and flood management

11.1. Water Policies and regulations for water quality and pollution control
11.2. Public-Private Partnerships in water and wastewater management
11.3. Community participation and stakeholder engagement
11.4. International water/ wastewater management agreements
11.5. Policy frameworks for sustainable management
11.6. Financing mechanisms to encourage innovative technologies

12.1. Economic analysis of water projects
12.2. Social equity and water access
12.3. Financing mechanisms for water infrastructure development
12.4. Public awareness and education campaigns
12.5. Cost recovery mechanisms
12.6. Water pricing
12.7. Economic valuation of water resources

13.1. Energy-efficient water treatment processes
13.2. Renewable energy integration in water treatment plants and water systems
13.3. Energy recovery from wastewater treatment process
13.4. Managing the water footprint of energy production
13.5. Low-energy desalination process

14.1. Ground water recharging practices
14.2. Rainwater harvesting practices
14.3. Water shed management water scared areas
14.4. Use of Ground Water prospects maps
14.5. Use of Satellite imaginaries for ground water developments
14.6. Assessment of availability of Ground water development
14.7. Study of critical depletion of ground water in metropolitan Cities.

15.1. Engaging communities in water conservation efforts
15.2. Protecting and restoring aquatic ecosystems
15.3. One drop more crop, agricultural practices to reduce water footprint
15.4. Water stewardship and community engagement
15.5. Sustainable agriculture and water conservation
15.6. Protecting aquatic ecosystems and biodiversity

16.1. Low financing for innovations
16.2. Award of standardization to innovative technologies
16.3. Improvement in traditional tendering process
16.4. Single tendering process for entire project work
16.5. Minimising running and maintenance cost of project
16.6. Delay in adoption of innovative technologies in relevant codes and rules

17.1. Successful case studies on environmental management.
17.2. Successful water and wastewater management projects
17.3. Lessons learned from international water management projects
17.4. Lessons learned from local initiatives
17.5. Implementing global best practices in regional contexts
17.6. Adapting global best practices to local contexts