Resumen

CUELLO-P., Paolo A.; PERNETT-B., Leda; BOLIVAR-S., Santander  y  RIVERA-GOYCO, Christian. Design and construction of a reaction system for cyclohexane catalytic aerobic oxidation using cobalt in SBA-3. Prospect. [online]. 2016, vol.14, n.2, pp.13-21. ISSN 1692-8261.  https://doi.org/10.15665/rp.v14i2.771.

In this work, a reaction system was designed and built to carry out the aerobic oxidation reaction of cyclohexane to obtain cyclohexanol and cyclohexanone using cobalt incorporated in SBA-3 materials as catalysts, which were tested on this reaction using the system. The design comprehended the determi nation of the wall thickness of the reactor in order for it to perform at 140°C and 0.8 MPa with an air flow of 0.2 SCFH. It also included the installation of an aeration system, the installation of temperature control and monitoring components, a scheme of delivery, measuring and manipulation of airflow, and a condensation of cyclohexane compound at the exit of the reactor. The reaction was carried out at the mentioned conditions during one hour, using two cobalt incorporated SBA-3 catalysts, synthetized pre viously by doping and incipient wetness impregnation respectively, in a theoretical molar Si/Co ratio of 25. The resulting conversions obtained with the materials were 0.81% and 0.20% for the doped and the impregnated material respectively.

Palabras clave : Cyclohexane aerobic oxidation; Lamé equations; PID control; Heterogeneous catalysts; SBA-3 Mesoporous materials..

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