The submission for funding was made in round four of the Energy Catalyst mid-stage technology development competition. The Energy Catalyst competition is funded by Innovate UK, the Department for International Development (DFID) and the Engineering and Physical Sciences Research Council (EPSRC).
Larkfleet’s ‘solar steam’ technology concentrates the power of the sun’s rays to heat water to create steam which can be used in industrial processes.
The Energy Catalyst competition was initiated to develop and prove the application of new technologies like Larkfleet’s solar steam system in order to solve all the elements of the global energy ‘trilemma’ – low carbon emissions, affordability and security of supply.
Larkfleet is submitting a proposal to build a ‘containerised’ version of its Solar Steam technology to supply renewable heat and power to off-grid rural communities in India. If successful, Larkfleet proposes to deliver a two-year project which will be carried out in partnership with Cranfield University and an Indian solar collector manufacturer. The total budget is about £550,000 and Larkfleet is directly contributing £128,000 to see the project to fruition.
The potential for renewable power generation using a solar steam array is vast. This global market opportunity has a value of trillions of pounds and is creating major opportunities for UK business. These businesses and supply chains can develop innovative and sustainable world-leading solutions like Larkfleet’s solar steam technology, which provides an opportunity for investment in solar steam in order to increase renewable heat input and reduce energy costs.
Simone Perini, renewable energy development engineer at Lark Energy, said: “Solar steam has the potential to transform energy access in developing countries. In particular we are looking at delivering a mobile containerised energy system that is able to operate where the grid is unbalanced, unreliable or unavailable – like rural India.”
The Larkfleet solar steam system works by focussing the sun’s rays through a Fresnel lens array onto a tube which contains water. The water is heated to create steam which can be used in industrial process heating and cooling applications or for power generation.
The angle of the lens array can be adjusted through a vertical axis to track the sun and is seated on a circular track which allows the array also to follow the sun’s progress horizontally across the sky. By tracking in both planes, the system maintains maximum levels of solar radiation concentrated on the tubes.
Simone Perini added: “We are taking this technology to a wider market where we believe it will have a positive impact on the generation of sustainable and renewable energy.
“To show the global potential of the technology we have applied to round four of the Energy Catalyst competition. We are collaborating with academic and commercial partners to deliver this project in India and we are also seeking to demonstrate the viability of this technology in other regions.”
For more information on solar steam click here.