Thermal and fluid science work spanning experimental pipe flow characterisation and thermodynamic cycle analysis — results cross-validated with theoretical models and assessed against idealised benchmarks.
Experimental investigation of internal pipe flow across laminar and turbulent regimes: Reynolds numbers computed from controlled flow conditions, friction factors extracted from differential pressure measurements, and results benchmarked against the Moody chart and Darcy–Weisbach model — with systematic uncertainty propagation from instrumentation through to derived quantities.
Structured thermodynamic analysis of engineering cycles: first- and second-law energy balances applied to idealised and real systems, entropy generation quantified, cycle efficiency mapped against idealised Carnot benchmarks, and property tables used to evaluate state-point conditions under varying operating parameters.