Quasi-homogeneous catalytic hydrogenation
benefits from the absence
of intraparticle diffusion in the catalyst with the gas–liquid–solid
system. However, it still suffers from the gas–liquid mass-transfer
resistance, which limits the hydrogenation reaction rate. In this
work, a rotating packed bed (RPB) reactor was first applied for the
intensification of quasi-homogeneous catalytic hydrogenation, employing
hydrogenation of 2-ethylanthraquinone (EAQ) as the test system. Effects
of operating conditions, including rotational speed of the RPB reactor,
initial concentration of EAQ, hydrogen pressure, reaction temperature,
and volume ratio of the solvent on H2O2 yield
and selectivity were investigated. The space time yield in the RPB
reactor reached 369.8 gH2O2
·gPd
–1·h–1, which was
much higher than that of 14.5 gH2O2
·gPd
–1·h–1 in the slurry stirred tank reactor under the same conditions. Applying
RPB technology for the quasi-homogeneous catalytic reaction can be
regarded as a new strategy for hydrogenation process intensification.