ENabling Hybrid Autonomous Nonconventional system for Clean Environment

Grant awarded: £63,888.05

PI: Abhisheck Tiwary

Funder: RA Eng

This 2-year industry fellowship project, awarded to Dr Abhishek Tiwary at DMU in partnership with JenAct Ltd – Jenton Group, conceptualised and evaluated a nonconventional air warming and cleaning system (EnHANCE), combining features of indoor air handling with pathogen removal and thermal management capabilities. It mainly focused on product development and lab-scale parameterisation, involving technology scoping and alignment of the key operating parameters to achieve the earmarked novel features.  

Key outcomes:

•             A conceptual design and prototype of the EnHANCE unit

•             Performance data for key parameters from model and lab-scale evaluations (warm air circulation, pollution/pathogen reduction efficacy)

•             Techno-economic feasibility on operational costs (electricity demand) and component maintenance

•             A focus group for seeking consumer opinion/feedback and a tangible market exploitation plan

•             Follow-on-funding via a proof-of-concept grant leading to further market exploitation.

Follow on results to academic practice. The project:

•             enabled establishing an ongoing collaborative relationship to extend academic research into real-world application.

•             helped incorporate more industry-facing content and UG/PG dissertation project topics on DMU engineering programmes.

Funder: Royal Academy of Engineering, Industrial Fellowship (2021-23)

Key researchers: Abhishek Tiwary (School of Engineering and Sustainable Development)

Enabling hybrid autonomous non-conventional system for cleaner indoor environment

Dr Abhishek Tiwary

ENHANCE: Environmental legislation is pushing the space-heating market away from fossil fuels, while Covid-19 has made us keenly aware of the benefits of clean air. This project will conceptualise and develop a novel air warming and sanitising system, combining complementary capacities in ultraviolet (UVC) technology, air pollution control and heating. It will potentially impact in transforming the future of indoor air warming and cleaning simultaneously.

Funded by: Royal Academy of Engineering Industrial Fellowship