Zhimian Hao scite author profile

Catalyst leaching is a major impediment to the development of commercially-viable processes conducted in a liquid-phase. To date, there is no reliable technique that can accurately identify the extent and dynamics of the leaching process in a quantitative manner. In this work, a tandem flow-reactor system has been developed, which allowed us to distinguish between surface-catalyzed reactions from those occurring in solution by comparing%conversion at the exit of each reactor (S1, S2) corresponding to predominance of heterogeneous/homogeneous reactions (spatial) and two different residence times (temporal). A multiscale model is subsequently established to quantify the two types of reaction rate and simulate the catalyst leaching from a cross-coupling catalyst, PdEncat™ 30; including: (1) a multi-particle sizes model for catalyst scale; and (2) a dispersion model for reactor scale. The results show that catalyst leaching occurs via more than one process, and that the homogeneous Pd-catalyst (leached from the immobilized catalyst and dissolved in the flow) dominates the reaction and possesses a much higher activity than the heterogeneous (immobilized) Pd-catalyst. Additionally, the change of leached Pd stream inside reactors can be predicted along with the axial direction and the reaction time through the reactor-scale dispersion model

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Efficient hybrid multiobjective optimization of pressure swing adsorption

Hao

Caspari

Schweidtmann

et al. 2021

Chemical Engineering Journal

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CO2 hydrogenation over mesoporous Ni-Pt/SiO2 nanorod catalysts: Determining CH4/CO selectivity by surface ratio of Ni/Pt

Huang

Yao

Song

et al. 2022

Chemical Engineering Science

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Accelerating net zero from the perspective of optimizing a carbon capture and utilization system

Hao

Barecka

Lapkin

2022

Energy Environ. Sci.

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Zhimian Hao

Spatial, temporal and quantitative assessment of catalyst leaching in continuous flow

Efficient hybrid multiobjective optimization of pressure swing adsorption

CO2 hydrogenation over mesoporous Ni-Pt/SiO2 nanorod catalysts: Determining CH4/CO selectivity by surface ratio of Ni/Pt

Accelerating net zero from the perspective of optimizing a carbon capture and utilization system

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