Angad Panesar
Angad Panesar
Principal Lecturer (Associate Professor) in Mechanical Engineering, University of Brighton
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Cited by
Cited by
An innovative Organic Rankine Cycle system for integrated cooling and heat recovery
AS Panesar
Applied Energy 186, 396-407, 2017
A comparative study between a Rankine cycle and a novel intra-cycle based waste heat recovery concepts applied to an internal combustion engine
R Morgan, G Dong, A Panesar, M Heikal
Applied Energy 174, 108-117, 2016
Working fluid selection for a subcritical bottoming cycle applied to a high exhaust gas recirculation engine
AS Panesar, RE Morgan, NDD Miché, MR Heikal
Energy 60, 388-400, 2013
Molten salt selection methodology for medium temperature liquid air energy storage application
M Bernagozzi, AS Panesar, R Morgan
Applied energy 248, 500-511, 2019
An innovative organic Rankine cycle approach for high temperature applications
AS Panesar
Energy 115, 1436-1450, 2016
Waste heat recovery using fluid bottoming cycles for heavy duty diesel engines
AS Panesar
A study of organic Rankine cycle systems with the expansion process performed by twin screw machines
AS Panesar
City University London, 2012
Organic Rankine cycle thermal architecture–From concept to demonstration
A Panesar, R Morgan, D Kennaird
Applied Thermal Engineering 126, 419-428, 2017
A novel organic Rankine cycle system with improved thermal stability and low global warming fluids
A Panesar, R Morgan, N Miche, M Heikal
4th International Conference on Production, Energy and Reliability, ICPER …, 2014
Two-phase expander approach for next generation of heat recovery systems
A Panesar, M Bernagozzi
International Journal of Renewable Energy Development 8 (3), 203-213, 2019
Temperature-Tailored Molten Salts for Sustainable Energy Storage
M Bernagozzi, A Panesar, R Morgan
JOM 72 (2), 635-643, 2020
An assessment of the bottoming cycle operating conditions for a high EGR rate engine at Euro VI NOx emissions
A Panesar, R Morgan, N Miché, M Heikal
SAE International Journal of Engines 6 (3), 1745-1756, 2013
An investigation of bottoming cycle fluid selection on the potential efficiency improvements of a Euro 6 heavy duty Diesel engine
AS Panesar, RE Morgan, NDD Miche, MR Heikal
Vehicle Thermal Management Systems Conference Proceedings (VTMS 11), 127-138, 2013
Low Temperature Molten Salts in Sustainable Energy Production
M Bernagozzi, A Panesar, R Morgan
Proceedings of the 7th European Conference on Renewable Energy Systems, 260-265, 2019
A novel organic rankine cycle system for heavy duty diesel engines
A Panesar, M Heikal, R Morgan
Sustainable Thermal Energy Management, 190-198, 2015
Ammonia as Green Fuel for Spark-Ignition Engines for Future Transportation
V Sharma, A Panesar, P Atkins, R Morgan, E Wylie
Ammonia and Hydrogen for Green Energy Transition, 149-165, 2024
Research and innovation identified to decarbonise the maritime sector
J Ling-Chin, R Simpson, A Cairns, D Wu, Y Xie, D Song, S Kashkarov, ...
Green Energy and Sustainability 4 (1), 1-14, 2024
Feasibility of hydrogen fuelled split cycle engine using multizone modelling
E Wylie, A Panesar, R Morgan
International Journal of Hydrogen Energy 60, 917-926, 2024
Combustion Diagnosis of Green Ammonia to Produce Carbon Free Energy
V Sharma, P Atkins, A Panesar
National Postdoc Conference, 2023
Two-Phase Expander Model for Energy Recovery Applications
A Panesar, M Bernagozzi
Proceedings of the 7th European Conference on Renewable Energy Systems, 266-271, 2019
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