Energy-Saving CO2Capture by H2Gas Stripping for Integrating CO2Separation and Conversion Processes

Hiroshi Machida; Takehiro Esaki; Takehiro Esaki; Tsuyoshi Yamaguchi; Koyo Norinaga

doi:10.1021/acssuschemeng.0c02459

Energy-Saving CO₂Capture by H₂Gas Stripping for Integrating CO₂Separation and Conversion Processes

Hiroshi Machida, Takehiro Esaki, Takehiro Esaki, Tsuyoshi Yamaguchi, Koyo Norinaga

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

CO2 capture and utilization technology, such as converting CO2 to fuel or chemicals by renewable energy-derived H2, has been promoted for recent decades. Herein, a process is proposed that saves considerable amounts of energy by integrating the CO2 separation and conversion processes. In the case of the method of amine absorption, supplying H2 to the bottom of the desorber reduces the regeneration temperature, which can reduce the process exergy. If combined with reaction heat recovery using a heat pump system, a considerable amount of energy can be saved. The recovered mixture of CO2 and H2 gas is then used directly as a raw reaction material. Herein, the proposed stripping regeneration process is compared on theoretical and equilibrium bases, with the conventional monoethanolamine method and the phase-separation solvent method developed by the authors. Using the phase-separation solvent leads to lower energy in the stripping regeneration.

Original language	English
Pages (from-to)	8732-8740
Number of pages	9
Journal	ACS Sustainable Chemistry and Engineering
Volume	8
Issue number	23
DOIs	https://doi.org/10.1021/acssuschemeng.0c02459
Publication status	Published - Jun 15 2020
Externally published	Yes

All Science Journal Classification (ASJC) codes

Chemistry(all)
Environmental Chemistry
Chemical Engineering(all)
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1021/acssuschemeng.0c02459

Cite this

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title = "Energy-Saving CO2Capture by H2Gas Stripping for Integrating CO2Separation and Conversion Processes",

abstract = "CO2 capture and utilization technology, such as converting CO2 to fuel or chemicals by renewable energy-derived H2, has been promoted for recent decades. Herein, a process is proposed that saves considerable amounts of energy by integrating the CO2 separation and conversion processes. In the case of the method of amine absorption, supplying H2 to the bottom of the desorber reduces the regeneration temperature, which can reduce the process exergy. If combined with reaction heat recovery using a heat pump system, a considerable amount of energy can be saved. The recovered mixture of CO2 and H2 gas is then used directly as a raw reaction material. Herein, the proposed stripping regeneration process is compared on theoretical and equilibrium bases, with the conventional monoethanolamine method and the phase-separation solvent method developed by the authors. Using the phase-separation solvent leads to lower energy in the stripping regeneration.",

author = "Hiroshi Machida and Takehiro Esaki and Takehiro Esaki and Tsuyoshi Yamaguchi and Koyo Norinaga",

note = "Funding Information: This work was supported by the Japan Science and Technology Agency through its Advanced Low-carbon Technology Research and Development Program (JST-ALCA), Grant JPMJAL1511, and by Kobe Steel, Ltd. (KOBELCO). Publisher Copyright: Copyright {\textcopyright} 2020 American Chemical Society.",

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AU - Machida, Hiroshi

AU - Esaki, Takehiro

AU - Yamaguchi, Tsuyoshi

AU - Norinaga, Koyo

N1 - Funding Information: This work was supported by the Japan Science and Technology Agency through its Advanced Low-carbon Technology Research and Development Program (JST-ALCA), Grant JPMJAL1511, and by Kobe Steel, Ltd. (KOBELCO). Publisher Copyright: Copyright © 2020 American Chemical Society.

PY - 2020/6/15

Y1 - 2020/6/15

N2 - CO2 capture and utilization technology, such as converting CO2 to fuel or chemicals by renewable energy-derived H2, has been promoted for recent decades. Herein, a process is proposed that saves considerable amounts of energy by integrating the CO2 separation and conversion processes. In the case of the method of amine absorption, supplying H2 to the bottom of the desorber reduces the regeneration temperature, which can reduce the process exergy. If combined with reaction heat recovery using a heat pump system, a considerable amount of energy can be saved. The recovered mixture of CO2 and H2 gas is then used directly as a raw reaction material. Herein, the proposed stripping regeneration process is compared on theoretical and equilibrium bases, with the conventional monoethanolamine method and the phase-separation solvent method developed by the authors. Using the phase-separation solvent leads to lower energy in the stripping regeneration.

AB - CO2 capture and utilization technology, such as converting CO2 to fuel or chemicals by renewable energy-derived H2, has been promoted for recent decades. Herein, a process is proposed that saves considerable amounts of energy by integrating the CO2 separation and conversion processes. In the case of the method of amine absorption, supplying H2 to the bottom of the desorber reduces the regeneration temperature, which can reduce the process exergy. If combined with reaction heat recovery using a heat pump system, a considerable amount of energy can be saved. The recovered mixture of CO2 and H2 gas is then used directly as a raw reaction material. Herein, the proposed stripping regeneration process is compared on theoretical and equilibrium bases, with the conventional monoethanolamine method and the phase-separation solvent method developed by the authors. Using the phase-separation solvent leads to lower energy in the stripping regeneration.

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