| Title | Multiscale modeling of hydrogenolysis of ethane and propane on Ru(0001): Implications for plastics recycling |
|---|---|
| ID_Doc | 26069 |
| Authors | Xie, TJ; Wittreich, GR; Vlachos, DG |
| Title | Multiscale modeling of hydrogenolysis of ethane and propane on Ru(0001): Implications for plastics recycling |
| Year | 2022 |
| Published | |
| Abstract | Plastic waste presents an environmental threat. Chemical recycling via hydrogenolysis can convert plastic waste into waxes, lubricants, and fuels. Among catalysts, Ru stands out for its superior activity and selectivity. The chemistry of light alkane hydrogenolysis can help understanding plastics deconstruction. We perform first principles calculations, develop descriptor-based relations, and conduct microkinetic modeling and analysis on ethane and propane. Predictions are in excellent agreement with experimental data. We identify a similar cracking pattern for both hydrocarbons entailing a deeply dehydrogenated species with the removal of four hydrogen atoms: CHCH* +* -> 2CH* for ethane and CH3CCH* +2* -> CH3C* + CH* for propane. We find that the rate-determining step is the C-C cracking for ethane and the first dehydrogenation from the terminal carbon (CH3CH2CH3*+* -> CH3CH2CH2*+H*) for propane. The vinyl species CH2CH* produced from propane cracking is responsible for whether a single or multiple cracking events occur and effectively controls the selectivity. Specifically, ethane formation in propane hydrogenolysis is suppressed at elevated temperatures due to over cracking via multiple (two here) cracking events being preferred over hydrogenation and desorption of ethane from the catalyst. Our workflow and models provide a baseline for future studies on heavier hydrocarbons. Insights into recent experimental studies of polyethylene over Ru-based catalysts are discussed. |
| http://manuscript.elsevier.com/S0926337322005380/pdf/S0926337322005380.pdf |
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