Kinetic Modeling and Techno-Economic Analysis of a Methanol-to-Gasoline Production Repurposed Refinery Equipment

Arias Gallego, Carolina; Khandavilli, Muralikrishna; Kobayashi, Leiliang; Sarathy, S. Mani

doi:10.1021/acsomega.4c01327

ACS Omega

2024

DOI: 10.1021/acsomega.4c01327

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Kinetic Modeling and Techno-Economic Analysis of a Methanol-to-Gasoline Production Repurposed Refinery Equipment

Carolina Arias Gallego,

Muralikrishna Khandavilli,

Leiliang Kobayashi

et al.

Abstract: Methanol-to-gasoline (MtG) is an alternative process for the production of liquid fuel that involves the conversion of methanol into light and heavy hydrocarbons. The attractiveness of this option relies on multiple feedstocks that can be used to produce methanol, which can impact the greenhouse gases emitted into the atmosphere in comparison to petroleum-based feedstocks. However, one of the challenges of this alternative gasoline production is its high investment cost. This study presents a solution to incre… Show more

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Cited by 3 publications

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One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

Lappa,

Khalil,

Morales

et al. 2024

Energy Fuels

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Decreasing our demand for fossil feedstock is one of the best ways to support the energy and environmental transitions that are needed for our society. CO 2 utilization and, more specifically, CO 2 conversion to hydrocarbons are an attractive route to reduce CO 2 emissions and to obtain carbonneutral fuels and chemicals that are conventionally produced from fossil fuels. One way to achieve that is through the conversion of CO 2 to methanol, followed by methanol conversion to hydrocarbons. So far, these processes have mainly been studied as separate steps, and one view is to sequentially operate them. However, it is possible to perform it in one step, in tandem catalysis. Such catalysts are usually an oxide for the first reaction combined with an acidic zeolite that catalyzes the second reaction. Many catalysts have been researched for the two separate steps but only a few have been studied for the tandem when the gasoline range is the target. Among the oxides, ZnZrOx and In 2 O 3 dominate the art, while more metallic InCo also has its merits. These lead to interesting selectivities and yields when combined with a zeolite (usually ZSM-5). A clear understanding of the mechanism behind these systems has not been reached; yet, we deliver a summary of the achieved mechanistic results and offer insights for further studies. While parameters such as bed configuration or amount proximity have been studied, more research is needed, especially when looking at the complex kinetics. This "direct CO 2 to gasoline range hydrocarbons" (including aromatics) review aims to connect dots while highlighting the aspects that still need a deeper understanding, and it also pinpoints practical insights and perspectives.

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One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

Lappa,

Khalil,

Morales

et al. 2024

Energy Fuels

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Tandem Thermocatalytic Reaction for CO₂ Fixation into Single-Walled Carbon Nanotubes

Oh,

Kim,

Jang

et al. 2024

Energy Fuels

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Converting carbon dioxide (CO 2 ) to carbon nanotubes (CNTs) is economically advantageous due to the high cost of CNTs. However, the one-step conversion of CO 2 to CNTs compromises their quality owing to the oxidizing nature of CO 2 . We synthesized single-walled CNTs (SWCNTs) from CO 2 via a two-step tandem process. CO 2 was converted to methane (CH 4 ) using a Ni/SiO 2 catalyst with various Ni contents, achieving a CH 4 selectivity of >96.0% at 300 °C on 30 wt % Ni/SiO 2 . Subsequently, CNTs were produced from the mixed gas consisting of 12.1% CH 4 , 4.2% CO 2 , 5.8% CO, 36.2% H 2 , and 41.7% carrier gas using Fe−Mo/MgO catalyst at temperatures of 700−900 °C. High-yield CNTs were produced from the mixed gas, as demonstrated by analysis of CH 4 conversion rate and CNTs yield at different reaction temperatures. The temperature increase enhanced the CNTs crystallinity, reducing their diameter and the number of walls. Electrochemical diagnostic analysis reveals the synthesis of a higher proportion of SWCNTs at 900 °C. The proposed approach demonstrates a promising strategy for high-value CO 2 utilization.

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Catalytic Reduction of Carbon Monoxide to Liquid Fuels with Recyclable Hydride Donors

Concepcion,

Sampaio,

Meyer

2024

ACS Catal.

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Kinetic Modeling and Techno-Economic Analysis of a Methanol-to-Gasoline Production Repurposed Refinery Equipment

Cited by 3 publications

References 36 publications

One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

Tandem Thermocatalytic Reaction for CO₂ Fixation into Single-Walled Carbon Nanotubes

Catalytic Reduction of Carbon Monoxide to Liquid Fuels with Recyclable Hydride Donors

Contact Info

Product

Resources

About

Kinetic Modeling and Techno-Economic Analysis of a Methanol-to-Gasoline Production Repurposed Refinery Equipment

Cited by 3 publications

References 36 publications

One Step Methanol-Mediated CO2 Conversion to Gasoline: Comprehensive Review and Critical Outlook

One Step Methanol-Mediated CO2 Conversion to Gasoline: Comprehensive Review and Critical Outlook

Tandem Thermocatalytic Reaction for CO2 Fixation into Single-Walled Carbon Nanotubes

Catalytic Reduction of Carbon Monoxide to Liquid Fuels with Recyclable Hydride Donors

Contact Info

Product

Resources

About

One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

One Step Methanol-Mediated CO₂ Conversion to Gasoline: Comprehensive Review and Critical Outlook

Tandem Thermocatalytic Reaction for CO₂ Fixation into Single-Walled Carbon Nanotubes