A membrane reactor using palladium

“…Different coordination groups on the soluble polymers may cause the variation of the coordination state of palladium active species and then affect the behavior of the membrane catalyst. When NaBH is used instead of 4 NH NH as reducing agent for the same 2 2 monometallic catalytic hollow fibers, both the conversion of cyclopentadiene and selectivity for cyclopentene increase. A main reason is that the valence state and the structure of the active species of the monometallic palladium catalyst can affect the catalytic property of the catalytic polymeric hollow fibers because the reduction abilities of NH NH and NaBH are different.…”

“…Accordingly, when polymer-anchored monometallic palladium catalyst on the hollow fibers is reduced by NaBH , polymer-protected palladium 4 boride catalytic active species can be formed which exhibits relatively higher hydrogenation activity and selectivity than those reduced by NH NH . From the results of the hydrogena- 2 2 tion reaction, we find that the PVPPdrCArNaBH is more appropriate for high 4 cyclopentadiene conversion and cyclopentene selectivity than the other five catalytic hollow fibers. It is known that, for the selective hydrogenation reaction with the coordination catalyst, the selectivity for the reaction depends both on the relative coordinate ability and on the concentra-Ž .…”

“…In order to further improve the conversion of cyclopentadiene and the selectivity for cyclopentene, six bimetallic polymeric hollowfiber reactors are established with the bimetallic hollow fibers prepared by supporting NH NH 2 2 or NaBH reduced polymer-anchored bimetallic 4 palladium-cobalt catalyst on the inner wall of CA hollow fibers. Table 5 gives the results of the selective hydrogenation of cyclopentadiene with eight different mono-and bimetallic membrane reactors.…”

“…The data in Table 5 also show that the PVP-Ž . Pd-0.5Co OAc rCA bimetallic hollow fibers 2 reduced by NaBH is more appropriate for high 4 cyclopentadiene conversion and cyclopentene selectivity than the other two kinds of bimetallic Ž . hollow fibers EC-Pd-0.5Co OAc rCA and 2 Ž .…”

Selective hydrogenation of cyclopentadiene in mono- and bimetallic catalytic hollow-fiber reactors

“…Different coordination groups on the soluble polymers may cause the variation of the coordination state of palladium active species and then affect the behavior of the membrane catalyst. When NaBH is used instead of 4 NH NH as reducing agent for the same 2 2 monometallic catalytic hollow fibers, both the conversion of cyclopentadiene and selectivity for cyclopentene increase. A main reason is that the valence state and the structure of the active species of the monometallic palladium catalyst can affect the catalytic property of the catalytic polymeric hollow fibers because the reduction abilities of NH NH and NaBH are different.…”

“…Accordingly, when polymer-anchored monometallic palladium catalyst on the hollow fibers is reduced by NaBH , polymer-protected palladium 4 boride catalytic active species can be formed which exhibits relatively higher hydrogenation activity and selectivity than those reduced by NH NH . From the results of the hydrogena- 2 2 tion reaction, we find that the PVPPdrCArNaBH is more appropriate for high 4 cyclopentadiene conversion and cyclopentene selectivity than the other five catalytic hollow fibers. It is known that, for the selective hydrogenation reaction with the coordination catalyst, the selectivity for the reaction depends both on the relative coordinate ability and on the concentra-Ž .…”

“…In order to further improve the conversion of cyclopentadiene and the selectivity for cyclopentene, six bimetallic polymeric hollowfiber reactors are established with the bimetallic hollow fibers prepared by supporting NH NH 2 2 or NaBH reduced polymer-anchored bimetallic 4 palladium-cobalt catalyst on the inner wall of CA hollow fibers. Table 5 gives the results of the selective hydrogenation of cyclopentadiene with eight different mono-and bimetallic membrane reactors.…”

“…The data in Table 5 also show that the PVP-Ž . Pd-0.5Co OAc rCA bimetallic hollow fibers 2 reduced by NaBH is more appropriate for high 4 cyclopentadiene conversion and cyclopentene selectivity than the other two kinds of bimetallic Ž . hollow fibers EC-Pd-0.5Co OAc rCA and 2 Ž .…”

Selective hydrogenation of cyclopentadiene in mono- and bimetallic catalytic hollow-fiber reactors

“…The permeated reaction product can also be recovered in a rather pure form. The classical works of Itoh (1987) and Gryaznov (1986) led the way for others to build small membrane reactors for dehydrogenation of alkanes.…”

Simulation of a Palladium Membrane Reactor for Dehydrogenation of Ethylbenzene.

Dehydrogenation – Heterogeneous