| 1 |
A two-phase single-reciprocating-piston heat conversion engine: Non-linear dynamic modelling
Kirmse CJW, Oyewunmi OA, Taleb AI, Haslam AJ, Markides CN
Applied Energy, 186, 359, 2017 |
| 2 |
A single-reciprocating-piston two-phase thermofluidic prime-mover
Taleb AI, Timmer MAG, El-Shazly MY, Samoilov A, Kirillov VA, Markides CN
Energy, 104, 250, 2016 |
| 3 |
Working fluid selection for a two-phase thermofluidic oscillator: Effect of thermodynamic properties
Markides CN, Solanki R, Galindo A
Applied Energy, 124, 167, 2014 |
| 4 |
Nonlinear heat transfer processes in a two-phase thermofluidic oscillator
Markides CN, Osuolale A, Solanki R, Stan GBV
Applied Energy, 104, 958, 2013 |
| 5 |
Modelling of a two-phase thermofluidic oscillator for low-grade heat utilisation: Accounting for irreversible thermal losses
Solanki R, Mathie R, Galindo A, Markides CN
Applied Energy, 106, 337, 2013 |
| 6 |
Experimental investigation of a thermally powered central heating circulator: Pumping characteristics
Markides CN, Gupta A
Applied Energy, 110, 132, 2013 |
| 7 |
Dynamic modelling of a two-phase thermofluidic oscillator for efficient low grade heat utilization: Effect of fluid inertia
Solanki R, Galindo A, Markides CN
Applied Energy, 89(1), 156, 2012 |
| 8 |
A dynamic model for the efficiency optimization of an oscillatory low grade heat engine
Markides CN, Smith TCB
Energy, 36(12), 6967, 2011 |
