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스콜라Power-to-Gas(PtG) is a promising technology that produces hydrogen by the electrochemical reaction in water electrolyzer to manage the intermittent power generation from renewable energy such as wind and solar. Water electrolyzer generates hydrogen an...
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RISS 인기검색어
Power-to-Gas 플랜트 연계 순산소 연소 보일러 공정 해석 = Process Analysis on Coal Fired Oxy-fuel Combustion Power Plant Combined with Power-to-Gas Plant
한글로보기https://www.riss.kr/link?id=A107801045
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2021
-
작성언어
-
- 주제어
-
KDC
530
-
등재정보
KCI등재후보
-
자료형태
학술저널
-
수록면
22-33(12쪽)
-
KCI 피인용횟수
0
-
비고
학회 요청에 의해 무료로 제공
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Power-to-Gas(PtG) is a promising technology that produces hydrogen by the electrochemical reaction in water electrolyzer to manage the intermittent power generation from renewable energy such as wind and solar. Water electrolyzer generates hydrogen and highly purified oxygen as a by-product. In this study, the process was examined in coal fired oxy-fuel combustion power plant and in PtG plant to use highly purified oxygen obtained from water electrolyzer. The power generation efficiency of a coal-fired oxy-fuel power plant supplied with oxygen through an air separation unit and that of a coal-fired oxy-fuel power plant supplied with oxygen in a polymer electrolyte membrane (PEM) water electrolysis process were compared. As a result of the analysis, in the case of the combined system of the coal-fired oxy-fuel power plant and the PtG plant, the net power generation and power generation efficiency were higher than the case of individual coal-fired oxy-fuel power plant supplied with oxygen through the air separation unit. The process efficiency is further improved when using biomass, fueling the oxy-fuel combustion boiler rather than coal and when steam-water is in supercritical conditions.
목차 (Table of Contents)
- 1. 서 론 2. 시스템 구성 및 모델링 3. 분석 결과 4. 결 론
- 1. 서 론 2. 시스템 구성 및 모델링 3. 분석 결과 4. 결 론
참고문헌 (Reference)
1 박성호, "재생에너지기반 수전해 생산 수소와 바이오매스 가스화 하이브리드 공정의 기술 경제성 분석" 한국가스학회 24 (24): 65-73, 2020
2 유승한, "반탄화공정 연계 배가스의 재순환시 우드펠릿 보일러 열성능 변화에 대한 전산해석 연구" (사)한국열환경공학회 15 (15): 24-33, 2020
3 Kotas, T. J., "The exergy method of thermal plant analysis" Elsevier 2013
4 Vu, T. T., "Techno-economic analysis of ultra-supercritical power plants using air-and oxy-combustion circulating fluidized bed withwithout CO2 capture" 194 : 116-155, 2020
5 Specht, M., "Storage of renewable energy in the natural gas grid, Speicherung von Bioenergie und erneuerbarem Strom im Erdgasnetz" 126 : 1998
6 Wulf, C., "Review of power-to-gas projects in Europe" 155 : 367-378, 2018
7 Gotz, M., "Renewable Power-to-Gas : A technologicaleconomic review" 85 : 1371-1390, 2016
8 Bailera, M., "Power to gas-oxyfuel boiler hybrid systems" 40 (40): 10168-10175, 2015
9 원동혁, "Power to gas 를 활용한 가스터빈 성능 향상 방안" 295-296, 2017
10 Demirbas, A., "Potential applications of renewable energy sources, biomass combustion problems in boiler power systemscombustion related environmental issues" 31 (31): 171-192, 2005
1 박성호, "재생에너지기반 수전해 생산 수소와 바이오매스 가스화 하이브리드 공정의 기술 경제성 분석" 한국가스학회 24 (24): 65-73, 2020
2 유승한, "반탄화공정 연계 배가스의 재순환시 우드펠릿 보일러 열성능 변화에 대한 전산해석 연구" (사)한국열환경공학회 15 (15): 24-33, 2020
3 Kotas, T. J., "The exergy method of thermal plant analysis" Elsevier 2013
4 Vu, T. T., "Techno-economic analysis of ultra-supercritical power plants using air-and oxy-combustion circulating fluidized bed withwithout CO2 capture" 194 : 116-155, 2020
5 Specht, M., "Storage of renewable energy in the natural gas grid, Speicherung von Bioenergie und erneuerbarem Strom im Erdgasnetz" 126 : 1998
6 Wulf, C., "Review of power-to-gas projects in Europe" 155 : 367-378, 2018
7 Gotz, M., "Renewable Power-to-Gas : A technologicaleconomic review" 85 : 1371-1390, 2016
8 Bailera, M., "Power to gas-oxyfuel boiler hybrid systems" 40 (40): 10168-10175, 2015
9 원동혁, "Power to gas 를 활용한 가스터빈 성능 향상 방안" 295-296, 2017
10 Demirbas, A., "Potential applications of renewable energy sources, biomass combustion problems in boiler power systemscombustion related environmental issues" 31 (31): 171-192, 2005
11 Hansen, B. B., "Performance of a wet flue gas desulfurization pilot plant under oxy-fuel conditions" 50 (50): 4238-4244, 2011
12 Lee, K., "Performance evaluation of an oxy-coal-fired power plant" 4 (4): 400-407, 2009
13 Lee, K., "Performance evaluation of an oxy-coal-fired power plant" 4 (4): 400-407, 2009
14 Hagi, H., "Performance assessment of first generation oxy-coal power plants through an exergy-based process integration methodology" 69 : 272-284, 2014
15 Buhre, B. J., "Oxy-fuel combustion technology for coal-fired power generation" 31 (31): 283-307, 2005
16 Kreeft, G., "Legislative and Regulatory Framework for Power-to-Gas in Germany, Italy and Switzerland" STORE&GO 2018
17 Metz, B., "IPCC special report on carbon dioxide capture and storage" 2005
18 Soave, G., "Equilibrium constants from a modified Redlich-Kwong equation of state" 27 (27): 1197-1203, 1972
19 Kopp, M., "Energiepark Mainz : Technicaleconomic analysis of the worldwide largest Power-to-Gas plant with PEM electrolysis" 42 (42): 13311-13320, 2017
20 Vandewalle, J., "Effects of large-scale power to gas conversion on the power, gascarbon sectorstheir interactions" 94 : 28-39, 2015
21 Hank, C., "Economics carbon dioxide avoidance cost of methanol production based on renewable hydrogenrecycled carbon dioxi de-pow er-to-met hanol" 2 (2): 1244-1261, 2018
22 Hyunbin Jo, "Detailed assessment of mesh sensitivity for CFD simulation of coal combustion in a tangential-firing boiler" 대한기계학회 34 (34): 917-930, 2020
23 DOE, U., "Cost and Performance Baseline for Fossil Energy Plants, Volume 1:Bituminous Coal and Natural Gas to Electricity" Tech. Rep. Rev., NETL 2010
24 Chatzivasileiadi, A., "Characteristics of electrical energy storage technologiestheir applications in buildings" 25 : 814-830, 2013
25 Sterner, M., "Bioenergy and renewable power methane in integrated 100%renewable energy systems. Limiting global warming by transforming energy systems, Vol. 14" kassel university press GmbH 2009
26 "ASPEN HYSYS V.10, ASPEN Technology Inc"
27 Peng, D. Y., "A new two-constant equation of state" 15 (15): 59-64, 1976
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