%0 Journal Article %T Hydrogenation of Glucose on a Carbon-Supported Ru Catalyst: Optimization of the Reaction Conditions %A Juan J. Musci %A María E. Chiosso %A Guillermo J. Siri %A Mónica L. Casella %J Advances in Chemical Engineering and Science %P 224-240 %@ 2160-0406 %D 2023 %I Scientific Research Publishing %R 10.4236/aces.2023.133016 %X The catalytic hydrogenation of D-glucose over a 3 wt% Ru/C catalyst was studied varying the operating conditions in mild conditions range to optimize the obtention of D-sorbitol. The stirring speed, temperature, pressure, and initial glucose concentration were varied between 250 - 700 rpm, 343 - 383 K, 0.5 - 2 MPa, and 0.033 - 0.133 M, respectively. To verify the absence of mass transport limitations, the diffusion of reagents in the gas-liquid interface, the liquid-solid interface, and the internal diffusion in the particles were evaluated. Under the operating conditions studied, the reaction rate showed an order with respect to H₂ of 0.586 and with respect to glucose of 0.406. The kinetic data were adjusted using 3 general models and 19 different sub-models based on Langmuir-Hinshelwood-Hougen-Watson (LHHW) kinetics. Model 3a was the best one interpreting the aqueous phase hydrogenation of glucose (both reagents competitively adsorbed on the catalyst). The H₂ adsorption is dissociative and the rate-limiting step is the surface chemical reaction. %K 3 wt% Ru/C %K D-Glucose %K Hydrogenation %K Kinetic Modeling %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=125609