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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 발행연도
- 2023.6
- 수록면
- 21 - 36 (16page)
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초록· 키워드
Recently global warming caused by greenhouse gases has emerged as an important societal issue. In the long run, the era of hydrogen economy that produces and utilizes green-hydrogen from renewable energy sources will prevail the current fossil-fuel based energy system. Until the prevailing time of hydrogen economy, however, hydrogen should be at least blue-hydrogen in nature which requires removal of CO₂ in hydrogen generation steps. Blue hydrogen can be produced from low-grade fuels such as coal, petroleum coke and wastes with proper CO₂ removal processes. Converting low-grade fuels to hydrogen, it is essential to develop a gasification technology that produces syngas which
contains CO, CO₂ and hydrogen. Gasification is one of the most important technologies in the blue-hydrogen production process. In this study, petroleum coke in slurry phase was gasified in the 2 ton/day capacity test unit. Gasification results yielded carbon conversion of about 93% and cold gas efficiency of about 60%. Based on the pilot-scale test results, it was predicted that the cold gas efficiency of about 72% could be secured in the 10-times bigger 20 ton/day demonstration-scale gasification system. The prediction procedure based on the energy balance calculation for the scale-up design as well as on the simulation results at chemical equilibrium conditions was explained.
상세정보 수정요청해당 페이지 내 제목·저자·목차·페이지contains CO, CO₂ and hydrogen. Gasification is one of the most important technologies in the blue-hydrogen production process. In this study, petroleum coke in slurry phase was gasified in the 2 ton/day capacity test unit. Gasification results yielded carbon conversion of about 93% and cold gas efficiency of about 60%. Based on the pilot-scale test results, it was predicted that the cold gas efficiency of about 72% could be secured in the 10-times bigger 20 ton/day demonstration-scale gasification system. The prediction procedure based on the energy balance calculation for the scale-up design as well as on the simulation results at chemical equilibrium conditions was explained.
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목차
- ABSTRACT
- 1. 서론
- 2. 실험장치 구성 및 실험 방법
- 3. 실험결과 및 성능 분석
- 4. 실증급 플랜트 성능 예측
- 5. 요약 및 결론
- References
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