Real-time water-quality monitoring probe wins Queen’s Award

Proteus instrument

A water monitoring system that remotely measures the quality of water in rivers, lakes and reservoirs, has resulted in a Queens Award for Enterprise (Innovation) for Proteus Instruments, which developed the technology in collaboration with University of Birmingham researchers.

The probe provides real-time data on the levels of dissolved oxygen, organic carbon and detects bacterial contamination, to provide continuous monitoring of the health of water systems, their ability to support aquatic life, and their safety for leisure use.

The Proteus multiprobe can also be programmed to deliver other measurements of water quality such as biochemical oxygen demand (BOD), or the amount of dissolved oxygen taken up when organic matter breaks down in water. This parameter, which has previously only been measurable by a 5-day laboratory test, is vital to ensure that wastewater can be discharged into water systems without the risk of harming aquatic life.

The Proteus multiprobe is expected to change the way water quality is monitored. It has the same level of accuracy as laboratory testing, and delivers data in real-time, so can provide continuous monitoring. It is also robust and low-maintenance, meaning it can operate in even the harshest and most remote environments

The probe has already been installed in locations around the world including the River Ganges, the Chicago River, and Swansea Docks, and the company, which is already working with water companies, environmental regulators, and NGOs including the World Bank, is confident of a high demand for this new technology,

Rob Stevens, Managing Director of Proteus Instruments, commented: “The Proteus multiprobe is a highly disruptive technology that is poised to change practice in water quality monitoring. Our current installations have shown that the multiprobe is an effective, efficient, and immediate way to measure parameters such as BOD or the presence of coliform bacteria, which indicate the potential presence of disease-causing bacteria in water.

The team is extremely proud to be awarded the Queen’s Award for Enterprise: Innovation. We are one of only 51 organisations in the UK to receive this award, which is the highest accolade for any UK business.”

In addition to dissolved oxygen, organic carbon, coliform bacteria and BOD, the multiprobe can also be programmed to detect and measure water pressure, pH, temperature, salinity, turbidity, pollutants including chloride, optical brighteners, nitrate, tryptophan, crude and refined oils, ammonium, and chemical processes that use oxygen in water.

The technology benefitted from a Knowledge Transfer Partnership with researchers Kieran Khamis, Chris Bradley and David Hannah from the University of Birmingham’s School of Geography, Earth and Environmental Sciences, and has a wide range of applications in the water quality, environmental, leisure and fishing sectors.