Big data technology helps identify best river locations for hydro-power generation

Dr. Kevin Tansey, Reader in Remote Sensing and Principal Investigator at the University of Leicester, said: “This tool pulls in collections of almost 30 national scale data sets that are available at no cost. We use Geographical Information Systems (GIS) tools to overlay these different information layers, including a high resolution digital elevation model from the Environment Agency to estimate slope downstream.

“We are delighted with the results. We carried out field tests on the River Tame to the east of Manchester in October 2014 and can honestly say that this tool does exactly what it says on the tin. We have built a very visual and interactive user interface in Google Earth to show the multiple solutions on offer at various locations and their cost. We can process the data in the office, or standing on the doorstep of a land owner or turbine manufacturer. We can run the tool to show potential locations nationally on any stretch of river.

“This kind of collaborative research, combining academic skills with ideas from industry and innovation funding from government is a clear winning formula for U.K. plc. We are already talking to organizations overseas to see how we can develop the tool for international markets, especially in developing countries.”

Martyn Cowsill, project consultant at Fluvial Bounty CIC, said: “During our work, we uncovered several significant market opportunities and, more to our surprise, some innovative ways of exploiting the energy potential even in small rivers, especially those which run through urban areas.

“Hydropower is a cut-above solar and wind, in that the river runs 24/7, 365 days a year, and is a proven way of generating energy from rivers. The National Grid and Distribution Network Operators like Western Power Distribution, are very interested in hydropower’s ability to help balance the grid. We could be talking about thousands of inexpensive 10kW-20kW turbines, installed on urban rivers, close to the point of use, close to points of trouble-free connectivity to the grid, producing electricity during times of peak demand, and possibly also hydrogen for hydrogen vehicles at times of low demand.”

The ISMORTASED team point to the many long-term benefits of their work. Baxter said: “We hope that the widespread proliferation of “run-of-river” micro hydropower will help provide a solution to issues of grid balancing by combining electricity storage with a reliable and constant energy source. Hydropower through ISMORTASED provides half of the solution as it will provide a stable, green, constant and predictable supply of power in the next few years, unlike energy from wind and solar which are too erratic. ISMORTASED offers a good and efficient route offering both upstream and downstream commercial opportunities.”

Cowsill added: “ISMORTASED will enable manufacturers to mass produce hydro equipment, rather than manufacturing  individual  bespoke hydro turbines.”

The release notes that the team is currently seeking further funding from a range of potential investors to undertake a more robust national-scale validation campaign and develop a number of case studies.

Tansey sees the completion of this stage of ISMORTASED as an excellent example of the application of University of Leicester’s expertise to deliver novel commercial ideas, through a successful collaboration. He added: “This was an exciting project to be working in to address the current and growing concerns around climate and energy.

“ISMORTASED offers an excellent example of University of Leicester’s involvement with commercial and public sector organizations to develop tools that are applicable at the local scale globally.”