PI-level & granted by Ministry of Science & Technology (MOST), Taiwan

2021-2024: Using GPU-accelerated lattice Boltzmann method for prediction of turbulent heat transfer performance in Li-ion battery packs for electric vehicles, Thermofluid Program, Grant No. MOST 110-2221-E-007-062-MY3

2021-2024: Using artificial intelligence techniques to construct combustion kinetic mechanisms of next-generation fuels for transportation and power generation, Energy Program, Grant No. 110-2223-E-007-004-MY3

2020-2021: Predicting fibrous particle filtration performance of woven mesh screens, Thermofluid Program, Grant No. MOST 109-2221-E-007-009 

2018-2021: Developing kinetic mechanisms to predict PAH formation from combustion of LPG, Energy Program, Grant No. MOST 107-2628-E-007-004-MY3

2017-2018: Development and validation of a minimized chemical kinetic submechanism for polycyclic aromatic hydrocarbon formation in hydrocarbon fuel pyrolysis, Energy Program, Grant No. MOST 106-2221-E-110-061

2015-2018: Influences of unsaturated methyl esters on production of soot precursors and carbonyl compounds in biodiesel combustion, Energy Program, Grant No. MOST 104-2628-E-110-004-MY3 

2015-2016: Structural influences of aerosol-loaded obstructions on particle deposition characteristics: A lattice Boltzmann study, Thermofluid Program, Grant No. MOST 104-2221-E-110-081

2014-2015: Development of reduced chemical kinetics for a mechanism of biodiesel fuel surrogates, Energy Program, Grant No. MOST 103-2221-E-110-073

2012-2014: Development of a kinetic submechanism for low-temperature methyl butanoate oxidation, Energy Program, Grant No. NSC 101-2218-E-110-004-MY2