Pre-combustion CO_2 capture using amine-based absorption process for blue H_2 production from steam methane reformer

Oh Hyun-Taek; Kum Jaesung; Park JunhyungVo Nguyen DatKang Jun-HoLee Chang -Ha

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Pre-combustion CO_2 capture using amine-based absorption process for blue H_2 production from steam methane reformer

机译：Pre-combustion CO_2 capture using amine-based absorption process for blue H_2 production from steam methane reformer

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摘要

A novel pre-combustion CO2 capture process using methyl diethanolamine with piperazine (MDEA/PZ) was investigated for the production of blue H2 from a steam methane reformer (SMR). A sensitivity analysis was performed at various operating parameters (such as MDEA or PZ concentration, flash drum pressure, CO2 loading in a lean-amine solvent, and CO2 removal efficiency) using a validated rate-based model. The energy consumption to capture CO2 from SMR gas at 21 bar was evaluated, including the compression energy (up to 30 bar) for the dehydration of captured CO2. For 90 and 95 CO2 removal efficiency, reboiler duties were 1.318 GJ/ tonCO(2) and 1.364 GJ/tonCO(2), and CO2 compression works were 11.673 kW/molCO(2) and 11.615 kW/molCO(2). The results indicated more than 40 lower reboiler duty than the energy consumption of conventional CO2 capture processes in post-combustion. Subsequently, artificial neural network model (ANN)-based optimization using the differential evolution method was performed. The developed ANN-based optimization suggested the possibility of additional 0.3 reduction in the equivalent work at a low computational cost. The results indicated that the developed pre-combustion CO2 capture for a SMR was highly competitive in industrial applications. Moreover, the H-2 mixture produced at 21 bar is beneficial for a H2 recovery unit because of no need for additional compression energy. Therefore, the MDEA/PZ-based absorption process can effectively contribute to centralized or semi-central blue H-2 production from a SMR. This study provides a guideline for the feasible optimization and control of the CO2 absorption process at high feed pressures.

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来源
《Energy conversion & management》 |2022年第6期|115632.1-115632.18|共18页
作者
Oh Hyun-Taek; Kum Jaesung; Park JunhyungVo Nguyen DatKang Jun-HoLee Chang -Ha;
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作者单位

Yonsei Univ, Dept Chem & Biomol Engn, Seoul, South Korea;

SK Innovat, Environm R&D Ctr, Inst Environm Sci & Technol, Daejeon, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
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关键词
Pre-combustion CO 2 capture; Methyl diethanolamine; piperazine-based ab-sorption; Steam methane reformer; Artificial neural network model-basednbsp; optimization;

Pre-combustion CO_2 capture using amine-based absorption process for blue H_2 production from steam methane reformer

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