# | Document title | Authors | Year | Source | Cited by |
1 | Production of ethanol from sweet sorghum juice using VHG technology: A simulation case study | Thangprompan P., Thanapimmetha A., Thanapimmetha A., Saisriyoot M., Saisriyoot M., Laopaiboon L., Srinophakun P., Srinophakun P. | 2013 | Applied Biochemistry and Biotechnology 171(2),pp. 294-314 | 14 |
2 | Development of separation method for Alpha-Tocopherol and Gamma-Oryzanol extracted from rice bran oil using Three-Zone simulated moving bed process | Tangpromphan P., Duangsrisai S., Jaree A. | 2021 | Separation and Purification Technology 272 | 12 |
3 | A simplified strategy to reduce the desorbent consumption and equipment installed in a three-zone simulated moving bed process for the separation of glucose and fructose | Tangpromphan P., Budman H., Jaree A. | 2018 | Chemical Engineering and Processing: Process Intensification 126,pp. 23-37 | 6 |
4 | The Design of Three-Zone Simulated Moving Bed Process for the Separation of Chlorogenic and Gallic Acids Extracted from Spent Coffee Grounds | Nakkong K., Tangpromphan P., Jaree A. | 2020 | Waste and Biomass Valorization
| 4 |
5 | Enhanced separation of chlorogenic and gallic acids extracted from spent coffee grounds using a three-zone simulated moving bed process with partial feed and partial collection strategies | Tangpromphan P., Nakkong K., Jaree A. | 2021 | Journal of Chemical Technology and Biotechnology
| 3 |
6 | Separation of Vitexin and Iso-vitexin from Mung Bean Seed Coats Using a Three-Zone Simulated Moving Bed (SMB) | Maneewan S., Tangpromphan P., Jaree A. | 2021 | Waste and Biomass Valorization
| 2 |
7 | Three-zone simulated moving bed for the separation of chlorogenic acid and caffeine fractions in the liquid extract of spent coffee grounds | Tangpromphan P., Palitsakun S., Jaree A. | 2023 | Heliyon 9(11) | 2 |
8 | Competitive effect of glucose–fructose adsorption in a fixed-bed chromatographic column | Tangpromphan P., Kaewchada A., Jaree A. | 2016 | Journal of Separation Science 39(22),pp. 4314-4324 | 1 |
9 | Encapsulation of Alpha-Tocopherol Using Polycaprolactone and Tween 20: Formulation and a Perspective for Scaling up Using Micro-Channel | Kaewchada A., Tangpromphan P., Nakkong K., Jaree A. | 2023 | Iranian Journal of Chemistry and Chemical Engineering 42(7),pp. 2248-2259 | 0 |
10 | Effects of Purified Vitexin and Iso-Vitexin from Mung Bean Seed Coat on Antihyperglycemic Activity and Gut Microbiota in Overweight Individuals’ Modulation | Yutharaksanukul P., Tangpromphan P., Tunsagool P., Sae-tan S., Nitisinprasert S., Somnuk S., Nakphaichit M., Pusuntisumpun N., Wanikorn B. | 2024 | Nutrients 16(17) | 0 |
11 | Continuous Encapsulation of Vitamin E Using Polycaprolactone and Tween 20 in a Micro-Channel | Kaewchada A., Chongcharoen R., Tangpromphan P., Nakkong K., Jaree A. | 2023 | Applied Science and Engineering Progress 16(1) | 0 |
12 | Recovery of alpha-mangostin and gamma-mangostin from mangosteen pericarps via green solvent extraction and isocratic preparative chromatography | Tangpromphan P., Palitsakun S., Kaewchada A., Jaree A. | 2023 | Case Studies in Chemical and Environmental Engineering 8 | 0 |