# | Document title | Authors | Year | Source | Cited by |
1 | Oxidative desulfurization using polyoxometalates | Komintarachat C., Trakarnpruk W. | 2006 | Industrial and Engineering Chemistry Research, 45(6), pp. 1853-1856 | 191 |
2 | Solid acid catalyst for biodiesel production from waste used cooking oils | Komintarachat C., Chuepeng S. | 2009 | Industrial and Engineering Chemistry Research, 48(20), pp. 9350-9353 | 81 |
3 | Interesterification optimization of waste cooking oil and ethyl acetate over homogeneous catalyst for biofuel production with engine validation | Chuepeng S., Komintarachat C. | 2018 | Applied Energy, 232, pp. 728-739 | 26 |
4 | Continuous production of palm biofuel under supercritical ethyl acetate | Komintarachat C., Sawangkeaw R., Ngamprasertsith S. | 2015 | Energy Conversion and Management, 93, pp. 332-338 | 23 |
5 | Catalytic enhancement of calcium oxide from green mussel shell by potassium chloride impregnation for waste cooking oil-based biodiesel production | Komintarachat C., Chuepeng S. | 2020 | Bioresource Technology Reports, 12, 100589 | 15 |
6 | Methanol-based transesterification optimization of waste used Cooking Oil over potassium hydroxide catalyst | Komintarachat C., Chuepeng S. | 2010 | American Journal of Applied Sciences, 7(8), pp. 1073-1078 | 14 |
7 | Utilization of waste-derived biodiesel in a compression ignition engine | Chuepeng S., Komintarachat C., Klinkaew N., Maithomklang S., Sukjit E. | 2022 | Energy Reports, 8, pp. 64-72 | 10 |
8 | Nanoparticle Components and Number-Size Distribution of Waste Cooking Oil-Based Biodiesel Exhaust Gas from a Diesel Particulate Filter-Equipped Engine | Dangsunthonchai M., Visuwan P., Komintarachat C., Theinnoi K., Chuepeng S. | 2021 | ACS Omega | 7 |
9 | Insight into Nanoparticle-Number-Derived Characteristics of Precharged Biodiesel Exhaust Gas in Nonthermal Plasma State | Thitipatanapong S., Visuwan P., Komintarachat C., Theinnoi K., Chuepeng S. | 2021 | ACS Omega | 5 |
10 | Density determination of ethyl Acetate-Palm oil mixture in supercritical condition | Komintarachat C., Sawangkeaw R., Ngamprasertsith S. | 2015 | Engineering Journal, 19(2), pp. 29-39 | 4 |
11 | A review of supercritical technologies for lipid-based biofuels production: The glycerol-free processes | Sakdasri W., Sakdasri W., Komintarachat C., Sawangkeaw R., Ngamprasertsith S. | 2021 | Engineering Journal, 25(2), pp. 1-14 | 3 |
12 | Thermodynamic properties of gas generated by rapeseed methyl ester-air combustion under fuel-lean conditions | Chuepeng S., Komintarachat C. | 2010 | Kasetsart Journal - Natural Science, 44(2), pp. 308-317 | 2 |
13 | Biofuel Synthesis from Waste Cooking Oils and Ethyl Acetate via Interesterification under CaO Catalyst from Waste Eggshells | Komintarachat C., Tongroon M., Chuepeng S. | 2019 | ESIT 2018 - 3rd International Conference on Engineering Science and Innovative Technology, Proceedings, 8665032 | 1 |
14 | Triacetin as Lubricant Additive: Slipping Friction between Metal Pairs under Boundary Lubrication | Kumwannaboon W., Chuepeng S., Komintarachat C. | 2023 | Applied Science and Engineering Progress, 16(1), 5551 | 1 |
15 | Emission control and performance calibration for bioethanol based fuel combustion in spark ignition engines under idle and low load conditions | Komintarachat C., Chuepeng S. | 2016 | European Biomass Conference and Exhibition Proceedings, 2016(24thEUBCE), pp. 698-706 | 0 |