Smart Water Management: Innovations in Real-Time Quality Monitoring and Sustainable Practices
Arya College of Engineering & IT, Jaipur is recognised as a major contributor to the water resources engineering & management and watershed development & management at the national level.
1. SmartWater Management: Utilizing IoT, AI, and smart meters to track and manage water
resources in real-time, improving efficiency, and reducing waste.
2. WastewaterProcessing: Advanced water treatment methods, such as membrane filtration, UV
disinfection, and ozone treatment, for better water quality and resource
recovery.
3. AdvancedFiltration: Innovative filtration techniques, including nanofiltration and
ultrafiltration, for improved water treatment and purification.
4. FloodPrevention: Using drones, weather radars, and other technologies to monitor
water levels and prevent flooding, ensuring water safety and resource
management.
5. Water-savingtechnology: Smart irrigation systems, low-flow fixtures, and other water-saving
solutions to conserve water resources.
6. DecentralizedInfrastructure: Decentralized water infrastructure, such as rainwater
harvesting systems and onsite wastewater treatment, to improve access to
drinking water in remote areas.
7. InnovativeMaterials: Novel materials, like graphene-based membranes, for more efficient
and sustainable water treatment and filtration.
8. Desalination:Advanced desalination technologies, such as reverse osmosis and
electrodialysis, for converting seawater into freshwater.
9. Real-TimeWater Quality Monitoring: Continuous monitoring of water quality in remote
locations, ensuring sustainable and safe water resources.
10. Technology-DrivenReduction in Water Distribution Leakage: Innovative technologies, such as
advanced sensors and data analytics, to detect and fix water leakages,
conserving water resources and reducing operational costs.
11. RemoteSensing of Water: Remote sensing technologies for water accounting, non-revenue
water remediation, and water management.
12. SmartIrrigation: IoT-enabled smart irrigation systems for efficient water use in
agriculture.
13. WaterQuality Control: IoT-enabled water quality control systems for real-time
monitoring and management.
14. DistributedTechnology: Distributed technology for expanding water and wastewater services
to remote areas.
15. Low-Costand Effective PFAS Remediation: Innovative solutions for removing per- and
polyfluoroalkyl substances (PFAS) from water.
16. MagneticCell-Enrichment Technology: Attractive solutions for water treatment and
resource recovery.
17. BiodegradableDisinfectants: Natural disinfecting micelles based on ionic liquids for water
treatment, reducing bacterial resistance.
18. Chemical-FreeWastewater Removal Treatment: Cost-effective and chemical-free water treatment
for removing dyes and producing nitrogen fertilizer.
19. ReplacingGlass pH Electrodes with Metal: More robust metal electrodes for pH sensing in
water samples, improving durability and reducing fragility.
20. SparklingWater Treatment Using Nanobubbles: Cost-effective and chemical-free nanobubble
generation for water treatment, with minimal impact on water quality and
aquatic life.
How do smart water meters work
Smart water meters work by utilizing advancedtechnology to measure and monitor water consumption accurately and in real time.
These meters consist of several core components that enable their
functionality:
1. HighlyAccurate IoT Sensor: Smart water meters are equipped with a highly accurate
sensor, typically based on ultrasonic or electromagnetic principles, that
measures water flow precisely as it passes through the meter.
2. MicrocontrollerUnit (MCU): The meter includes a microcontroller unit that processes data
collected by the sensor. The MCU can analyze water consumption patterns, detect
leaks, and provide real-time data for better decision-making.
3. WirelessCommunication Modules: Smart water meters are equipped with wireless
communication modules such as cellular, Wi-Fi, or LoRa. These modules enable
seamless data transmission, allowing for remote monitoring of water consumption
and prompt identification of anomalies.
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