[36] C.-C. Liao, K.C. Lin,* CFD study on the interplay between mixing angles and swirl-inducing inlets of a static micromixer: From vortex to engulfment flow, Chemical Engineering Research and Design, accepted, 2025 

[35] N.T.N. Quynh, H.-H. Kuo, C.-C. Liao, K.C. Lin,* Three-Dimensional Computational Fluid Dynamics analysis of convective heat transfer from a heated horizontal cylinder rotating in air: From laminar to turbulent flow, ASME Journal of Heat and Mass Transfer, 147(7): 071801, 2025 

[34] A. Dahiya, H. Tao, K.C. Lin,* n-dodecane mechanism with ANN-assisted reduction for CFD modeling to predict formation of light-weight aromatics and soot in diffusion flames: Comparison with experimental data, International Journal of Chemical Kinetics, 257:315-331, 2025 

[33] K.C. Lin,* T.P. Duong, Y.H. Li, S.Y. Chou, Application of a hybrid lattice-Boltzmann Lagrangian method to predict fibrous particle penetration through mesh screens, Physics of Fluids, v36, 093353, 2024 (Featured)

[32] A. Dahiya, H. Tao, K.C. Lin,* Skeletal kinetic mechanism for predicting formation of non-fuel hydrocarbons and soot in ethylene flames – A CFD approach, Fuel Processing Technology, v249, 107847, 2023 

[31] K.C. Lin, C.-C. Liao,* Simulation of slurry residence time during chemical-mechanical polishing using 3-D computational fluid dynamics, Chemical Engineering Research and Design, v191, 375–386, 2023 

[30] J-H Li, T-H Yu, K.C. Lin,* Modeling of microparticle penetration through wire screen using a lattice Boltzmann method and Lagrangian tracking approach: comparison with experiments, Aerosol Science and Technology, v56, 12, 1174-1189, 2022.

[29] C-C Liao, K.C. Lin,* A two-phase model for studying the complex interplay between natural convection and magnetic field in aluminum-oxide/water nanofluid, Numerical Heat Transfer, Part A: Applications, 82:8, 455-468, 2022.

[28] K.C. Lin,* A. Dahiya, H. Tao, F-H. Kao, Combustion mechanism and CFD investigation of methyl isobutanoate as a component of biodiesel surrogate, Energy, v249, 123589, 2022.

[27] K.C. Lin, C.-C. Liao,*Avoidance of particle accumulation in a coating diffuser during dilute-phase pneumatic conveying: A case study through CFD, Industrial & Engineering Chemistry Research, v61, 855–865, 2022 

[26] H. Lee, A. Dahiya, K. C. Lin, X-X Chen, W-C Wang,* Numerical simulation of ignition delay time for petroleum and renewable fuels, Fuel, v304, 121345, 2021

[25] T-Q Tang, S-Y Hsu, A. Dahiya, C.H. Soh, K.C. Lin,* Numerical modeling of pulsatile blood flow through a mini-oxygenator in artificial lungs, Computer Methods and Programs in Biomedicine, v208, 106241, 2021

[24] S-L Lin,* J-L Wu, K.C. Lin, H. Wu, Z. Guo, C-W Tu, A novel flameless oxidation and in-chamber melting system coupled with advanced scrubbers for a laboratory waste plant, Waste Management, v126, 706-718, 2021 

[23] K.C. Lin,* H.Y. Wang, L.K. Huynh, M.S. Han, Compact mechanism and CFD predictions for C2−C16 hydrocarbon formation in non-premixed propane flames with experimental validation,  Industrial & Engineering Chemistry Research, v59, 16822–16831, 2020 

[22] T.V.T. Mai, K.C. Lin, L.K. Huynh,* Thermal unimolecular decomposition of ethyl 2‐furoate and its reactivity toward OH radicals: A theoretical study, International Journal of Chemical Kinetics, v52, 580-588, 2020 

[21] H. Tao, H.Y. Wang, W. Ren, K.C. Lin,* Kinetic mechanism for modeling the temperature effect on PAH formation in pyrolysis of acetylene, Fuel, v255, 115796, 2019 (Featured in Advances in Engineering)

[20] K.C. Lin,* J.S. Tsai, Simulation of nanoparticle penetration through mesh screens using a hybrid lattice-Boltzmann Lagrangian method and comparison with experiments, Journal of Aerosol Science, v124, pp 146–159, 2018

[19] X.T. Le, T.V.T. Mai, K.C. Lin, L.K. Huynh,* Low-temperature oxidation kinetics of biodiesel molecules: Rate rules for concerted HO2 elimination from alkyl-ester peroxy radicals, Journal of Physical Chemistry A, v122, 42, pp 8259-8273, 2018

[18] T.V.T. Mai, M.V. Duong, H.T. Nguyen, K.C. Lin, L.K. Huynh,* Ab initio chemical kinetics of the CH2OO + C2F4 reaction, Chemical Physics Letters, v706 (16), pp 280–284, 2018  

[17] K.C. Lin,* T.W. Lee, Skeletal mechanism of ethyl propionate oxidation for CFD modeling to predict experimental profiles of unsaturated products in a nonpremixed flame, Energy & Fuels, v32 (1), pp 855–866, 2018

[16] K.C. Lin,* R. Patel, J.S. Tsai, Filtration of aerosol particles by clean elliptical fibers with relevance to pore size: A lattice Boltzmann-cellular automaton model, Computers & Fluids, v156, pp. 534-544, 2017

[15] K.C. Lin,* C.T. Chiu, A compact skeletal mechanism of propane towards applications from NTC-affected ignition predictions to CFD-modeled diffusion flames: Comparisons with experiments, Fuel, v203, pp 102–112, 2017

[14] T.V.T. Mai, M.V. Duong, H.T. Nguyen, K.C. Lin, L.K. Huynh,* Kinetics of thermal unimolecular decomposition of acetic anhydride - An integrated deterministic and stochastic model, Journal of Physical Chemistry A, v121, 16, 3028-3036, 2017

[13] K.C. Lin,* Y. Bhosale, C.Y. Zhou Huang, 3D-CFD investigation into free convection flow above a heated horizontal cylinder: Comparisons with experimental data, Applied Thermal Engineering, v120, pp 277–288, 2017 (Featured in Advances in Engineering)

[12] H. Tao, K.C. Lin,* Kinetic barriers, rate constants and branching ratios for unimolecular reactions of methyl octanoate peroxy radicals: A computational study of a mid-sized biodiesel fuel surrogate, Combustion and Flame, v180, pp. 148-157, 2017

[11] K.C. Lin,* C.T. Chiu, H. Tao, Y.C. Liao, Formation of unsaturated hydrocarbons, carbonyl compounds and PAHs in a non-premixed methane/air flame doped with methyl butanoate: CFD modeling and comparison with experimental data, Fuel, v182, pp 487–493, 2016

[10] P.M. Yang, K.C. Lin, Y.C. Lin,* S.R. Jhang, S.C. Chen, Emission evaluation of a diesel engine generator operating with a proportion of isobutanol as a fuel additive in biodiesel blends, Applied Thermal Engineering, v120, pp 277–288, 2016

[9] K.C. Lin,* H. Tao,* F.H. Kao, C.T. Chiu, Minimized skeletal mechanism for methyl butanoate oxidation and its application to the prediction of C3-C4 products in non-premixed flames: A base model of biodiesel fuels, Energy & Fuels, v30 (2), pp 1354-1363, 2016

[8] P.M. Yang, Y.C. Lin,* K.C. Lin, S.R. Jhang, S.C. Chen, C.C. Wang, Y.C. Lin, Comparison of carbonyl compound emissions from a diesel engine generator fueled with blends of n-butanol, biodiesel and diesel, Energy, v90, pp. 266–273, 2015

[7] K.C. Lin,* H. Tao, K.W. Lee, An early stage of aerosol particle transport in flows past periodic arrays of clear staggered obstructions: A computational study, Aerosol Science and Technology, v48, pp.1299–1307, 2014

[6] H. Tao, K.C. Lin,* Pathways, kinetics and thermochemistry of methyl-ester peroxy radical decomposition in the low-temperature oxidation of methyl butanoate: A computational study of a biodiesel fuel surrogate, Combustion and Flame, v161, pp. 2270-2287, 2014

[5] K.C. Lin, Y.C. Lin,* Y.H. Hsiao, Microwave plasma studies of spirulina algae pyrolysis with relevance to hydrogen production, Energy, v64, pp. 567–574, 2014

[4] K.C. Lin, J.Y.W. Lai, A. Violi,* The role of the methyl ester moiety in biodiesel combustion: A kinetic modeling comparison of methyl butanoate and n-butane, Fuel, v92, pp.16-26, 2012

[3] J.Y.W. Lai, K.C. Lin, A. Violi,* Biodiesel combustion: Advances in chemical kinetic modeling, Progress in Energy and Combustion Science, v37, 1, pp. 1-14, 2011

[2] K.C. Lin, A. Violi,* Natural convection heat transfer of nanofluids in a vertical cavity: Effects of non-uniform particle diameters and temperature on thermal conductivity, International Journal of Heat and Fluid Flow, v31, 2, pp. 236-245, 2010

[1] L.K. Huynh, K.C. Lin, A. Violi,* Kinetic modeling of methyl butanoate in shock tube, Journal of Physical Chemistry A, v112, 51, 13470-13480, 2008