Catalytic Conversion of CO2 Using Bi-reforming 
and Methanol Synthesis

Acquarola, Christopher Michael

Acquarola CM 2024 Public.pdf (5.605Mb)

Access Status

Open access

Authors

Acquarola, Christopher Michael

Date

2024

Type

Thesis

Award

PhD

Metadata

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Faculty

Science and Engineering

School

WASM: Minerals, Energy and Chemical Engineering

URI

http://hdl.handle.net/20.500.11937/98062

Collection

Curtin Theses

Abstract

This study includes extensive process simulations and catalyst testing experiments on the conversion of CO2 to methanol via bi-reforming and methanol synthesis. The study found optimal operating conditions and developed a highly stable catalyst for the bi-reforming step to achieve a higher consumption of CO2 than CH4 in the process. The study developed a methanol production process for which the net CO2 emission is one of the lowest among the processes published in open literature.