Environmental Monitoring

Preventing Crises

Research into improving environmental monitoring is crucial for our ability to understand, address, and mitigate the growing challenges posed by climate change, pollution, habitat destruction, and other environmental threats.

Not only does it provide the data and insights necessary for informed decision-making at the individual, community, and governmental levels, enhanced monitoring techniques and technologies enable us to track changes in air and water quality, biodiversity, and ecosystems more accurately and in real-time, facilitating early detection of environmental issues and the implementation of timely interventions.

This research is fundamental for safeguarding our planet's health and ensuring a sustainable future for generations to come.

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Nitromatic Compunds and UAV fire detection

Our IoT Based Nitroaromatic Compound and Enclosure Detector introduces a method to detect nitroaromatic compounds and enclosures through microwave and capacitive sensing. Its ultra-low power consumption and IoT communication capabilities make it highly suitable for integration into modern industrial and environmental monitoring frameworks, offering real-time data transmission and enhanced safety measures. Similarly, the UAV Fire Detection System aims to revolutionise forest fire monitoring and response by using advanced algorithms for background detection, significantly improving firefighting efficiency and reducing the devastating impacts of forest fires.

Remote pressure monitoring

The Smart Pressure Monitoring and Relief System focuses on creating an IoT-enabled device for remote pressure monitoring inside vessels, with automatic pressure relief to prevent catastrophic failures. This technology is critical in industrial settings where maintaining pressure integrity is essential, and its remote monitoring capabilities can lead to safer and more efficient operations. The IoT Based Self-Powered Oil Spill Detector is another comprehensive system designed to detect oil spills using both invasive and non-invasive sensors. Integrating energy harvesting and IoT communication for self-sustainability, it functions in various environmental conditions and provides real-time data sharing, making it a vital tool for environmental protection agencies and the maritime industry. This enhances oil spill response and mitigation efforts, aligning with global environmental safety standards.

Ultra-sonic gas leakage detection

The Ultra Sonic Gas Leakage Detector utilises ultrasonic technology to accurately detect gas leaks and provide remote alerts. The environmentally friendly design, which avoids chemicals, along with its portability and user-friendliness, makes it an attractive solution for domestic, commercial, and industrial applications. Its high accuracy and reliability can significantly reduce risks associated with gas leaks. Additionally, the Optical Fibre (Temperature) Based Gas Leakage Detector employs optical fibre technology for gas leak detection, offering remote monitoring and easy access to data via cloud platforms. Its lightweight, compact, and electromagnetically passive design ensures efficiency and convenience. This project has the potential to enhance safety in pipeline transportation and industrial gas systems, promoting widespread adoption in these sectors. The commercialisation of these key projects is pertinent as they offer advanced, reliable, and efficient solutions for environmental monitoring, aligning with the growing demand for sustainable and safe practices in various industries.

Preventing Crises

Nitromatic Compunds and UAV fire detection

Remote pressure monitoring

Ultra-sonic gas leakage detection

Our More Projects

Renewables

Smart Grids

Green Transport

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