Establishing a model to select viable locations for “in-stream” micro hydropower
3 Year Industry-led Funded Phd: Ref. No. 36
In-stream hydropower schemes provide low-carbon and environmentally friendly renewable energy; yet is still in its infancy. Many pico/micro-hydropower scheme projects suffer from an absence of swift and cost-effective means of assessing: sites, their environmental impact, performance and commercial viability. The aim of this project is to develop and validate a hydropower assessment model, using GIS to combine with multiple inputs (e.g. LIDAR, satellite images) and in-situ data. The company is currently assessing potential sites for deployment of their ‘River Power Pod’ device, in association with government and non-government agencies, in Kenya, Nepal, Myanmar, China and the UK.
The aim of this doctoral research project is to develop a comprehensive, multi-method approach comprising analysis of in-situ data, satellite and aerial images, ‘remote sensors’ for measurements of flow and numerical modelling, to assess potential hydro energy sites. This project would be of particular interest to applicants with a background in GIS and/or remote sensing, interests in computing and working on applied aspects of hydrological research with our partner organisation Fern Innovation.
This doctoral research project will be supervised by Lancaster University and Fern Innovation Limited (@RiverPowerPod). Fern Innovation is an independent consultancy supporting the development and commercialisation of renewable energy technology; applying expertise developed in aerospace, energy and motorsport (F1 and Indycar). The River Power Pod is based upon technology originally developed by Green-Tide Turbines in conjunction with the University of Cambridge and Lancaster University.
By joining the Centre for Global Eco-Innovation you will receive £15,000 tax free per year, have your postgraduate tuition fees paid for by your partner business, worth £4,121/year (fees for Non EU/UK graduates are subsidised from £17,085/year to £12,964/year), become part of a cohort of graduates working with an award-winning team on business-led R&D, and finish in a strong position to enter a competitive job market in the UK and overseas.
This project has now been recruited.