Corporate Research & Development, Asahi Kasei Corporation, 2767-11 Niihama, Shionasu, Kojima, Kurashiki, Okayama, 711-8510, Japan.
Present address: Global Zero Emission Research Center, National Institute of Advanced Industrial Science and Technology, 1-1-1 Higashi, Tsukuba, Ibaraki, 305-8565, Japan.
Chemphyschem. 2022 Nov 18;23(22):e202200123. doi: 10.1002/cphc.202200123. Epub 2022 Sep 1.
Acetic acid (CH COOH) formation from methane (CH ) and carbon dioxide (CO ) is an ideal reaction for chemical production, whereas this reaction possesses a severe thermodynamic limitation. To address this issue, it has been reported that periodic operation allowing a non-equilibrium condition can overcome the thermodynamic limitation. However, although an intrinsic issue of uphill reactions in non-equilibrium conditions generally is occurrence of unfavorable downhill reactions, this issue has seldom been discussed for the CH COOH formation under periodic operation. Herein, excess CO reductions were found to be the unfavorable downhill reactions possibly occurring in the reaction aiming at CH COOH formation under periodically operated CH and CO feeds. The reaction using an isotopic reactant (i. e., CH ) unveiled that excess CO reductions to CO and even to CH moiety could occur, indicating importance of catalyst development. Furthermore, it was proposed that H O vapor introduction into the CO feed, which increased the CH COOH product, most likely facilitated the reverse reaction of the excess CO reductions and thereby is effective to hamper the unfavorable side reaction.
从甲烷 (CH ) 和二氧化碳 (CO ) 合成乙酸 (CH COOH) 是一种理想的化学合成反应,但该反应受到热力学限制。为了解决这个问题,已经有报道称周期性操作可以创造非平衡条件从而克服热力学限制。然而,尽管非平衡条件下的 uphill 反应的一个固有问题通常是不利的 downhill 反应的发生,但对于周期性 CH 和 CO 进料下的 CH COOH 形成,这个问题很少被讨论。在此,发现过量 CO 的还原是可能发生的不利 downhill 反应,其可能发生在周期性操作的 CH 和 CO 进料下的 CH COOH 形成反应中。使用同位素反应物(即 CH )的反应表明,过量 CO 可以还原为 CO,甚至还原为 CH 部分,这表明需要开发催化剂。此外,有人提出向 CO 进料中引入 H O 蒸汽,这增加了 CH COOH 产物,很可能促进了过量 CO 还原的逆反应,从而有效地阻止了不利的副反应。
