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An evaluation of hydrogen production from the perspective of using blast furnace gas and coke oven gas as feedstocks |
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| Authors: | Wei-Hsin Chen Mu-Rong LinTzong-Shyng Leu Shan-Wen Du |
| Affiliation: | a Department of Greenergy, National University of Tainan, Tainan, Taiwan, ROC b Department of Aeronautics and Astronautics, National Cheng Kung University, Tainan, Taiwan, ROC c Iron and Steel Research and Development Department, China Steel Corporation, Kaohsiung 812, Taiwan, ROC |
| Abstract: | Blast furnace (BF) is a large-scale reactor for producing hot metal where coke and coal are consumed as reducing agent and fuel, respectively. As a result, a large amount of CO2 is liberated into the atmosphere. The blast furnace gas (BFG) and coke oven gas (COG) from the ironmaking process can be used for H2 production in association with carbon capture and storage (CCS), thereby reducing CO2 emissions. In this study thermodynamic analyses are performed to evaluate the feasibility of H2 production from BFG and COG. Through the water gas shift reaction (WGSR) of BFG, almost all CO contained in BFG can be converted for H2 production if the steam/CO (S/C) ratio is no less than unity and the temperature is at 200 °C, regardless of whether CO2 is captured or not. The maximum H2 production from WGSR is around 0.21 Nm3 (Nm3 BFG)−1. Regarding H2 production from COG, a two-stage reaction of partial oxidation (POX) followed by WGSR is carried out. It is found the proper conditions for syngas formation from the POX of COG is at the oxygen/fuel (O/F) ratio of 0.5 and the temperature range of 1000-1750 °C where the maximum syngas yield is 2.83 mol (mol hydrocarbons)−1. When WGSR is subsequently applied, the maximum H2 production from the two-stage reaction can reach 0.83 Nm3 (Nm3 COG)−1. |
| Keywords: | Blast furnace gas (BFG) and coke oven gas (COG) Hydrogen production Partial oxidation Water gas shift reaction CO2 reduction Ironmaking process |
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