TPVs for Waste Heat Recovery in Energy Resilient Manufacturing

0c833823-293a-4d79-b75f-6c018eac481b

Closed

EPSRC
EPSRC
EPSRC
EPSRC
EPSRC

£935,220

March 31, 2015

Dec. 30, 2016

An efficient, practical and cost-effective means for directly converting heat into electricity is a very appealing concept. In principle, thermo-photovoltaic (TPV) cells could form the critical component of various systems for generating electricity from different types of heat sources including combustion processes, concentrated sunlight, waste process heat, and radio isotopes. This opens up a wide variety of possibilities for technology uptake and so TPV systems can be envisaged for use in applications ranging from small power supplies to replace batteries, to large scale co-generation of electricity.
However, existing TPV cells are based on GaSb and are spectrally matched to heat sources at temperatures of ~1800 oC which limits their practical implementation and widespread uptake. In this project we shall build on existing UK based world class III-V semiconductor materials expertise to fabricate novel low bandgap TPV arrays on inexpensive GaAs substrates, capable of efficient electricity generation from thermal waste heat sources in the range 500-1000 0C commonly encountered in industrial processes. The project will demonstrate the next step towards fabrication of large area TPV arrays essential for the commercial viability of TPV heat recovery, and will enable their widespread implementation in a wide range of high energy consumption industries such as glass, steel and cement manufacture, oil/gas and energy generation.

Potential Impact:
We shall enable the development of efficient, affordable thermophotovoltaic (TPV) arrays for electricity generation from radiant waste heat resulting in major energy savings and reduction in CO2 emissions. We shall build on existing UK based world class III-V semiconductor materials expertise to develop metamorphic bufffer layers on inexpensive GaAs substrates to facilitate monolithic low bandgap TPV arrays, capable of efficient electricity generation from thermal waste heat sources in the range 500-1000 0C commonly encountered in industrial processes.
The project will demonstrate the next step towards fabrication of large area TPV arrays essential for the commercial viability of TPV heat recovery, and will enable their widespread implementation in a wide range of high energy consumption industries such as glass, steel and cement manufacture. We also envisage wide-ranging impacts through; enabling development of new products and procedures that will generate major socio-economic benefits for the UK; scientific advancement leading to substantial generation of new knowledge as well as effective training and professional development of researchers.

After validation and appropriate IP protection we envisage that IQE together with CST would develop pilot production; since IQE has substantial epitaxy facilities and together with CST would be able to directly address the challenges in scaling up the existing technology from our initial proof of concept through the fabrication of small scale (25cm x 25cm) monolithic arrays, before moving towards larger array panels to realize the efficient and cost effective conversion of radiant heat into electricity. Tata and Pilkington would become the primary adopters of the technology. This will stimulate a valuable new energy technology for the future which will have a significant impact on utilisation of waste heat in process industries.

More widely, TPV cells could form the critical component of various systems for generating electricity from different types of heat sources including combustion processes, concentrated sunlight, waste process heat, and radio isotopes. This opens up a wide variety of possibilities for technology uptake and so TPV systems can be envisaged for use in applications ranging from small power supplies to replace batteries, to large scale co-generation of electricity.