Progress in Solid Oxide Fuel Cells with Nickel-Based Anodes Operating on Methane and Related Fuels
2013-10-30
org.kosen.entty.User@6c0bc512
이상호(RGB3)
행사&학회소개
1. Introduction
2. Methane Electro-oxidation Mechanism and Kinetics
2.1. Direct Oxidation and Indirect Oxidation
2.2. Reaction Kinetics
2.3. Mechanistic Studies Based on Model Electrodes
3. Coke Formation over Nickel Catalysts
3.1. Mechanism and Kinetics
3.2. Factors Controlling the Coke Formation
3.3. Coke Formation over Sintered SOFC Nickel Cermet Anodes
3.4. Strategies To Suppress Coke Formation over Nickel Cermet Anodes
4. Sulfur Poisoning
4.1. Types and Critical Amount of Sulfur Contaminants
4.2. Possible Poisoning Mechanisms
4.3. Strategies for Sulfur Mitigation
5. Redox Stability
5.1. Redox Behavior of Ni-Based Cermet Anodes
5.2. Possible Solutions
6. Cogeneration of Electric Power and Syngas
7. SOFCs Operating on Oxygenated Methane Fuels
7.1. Dimethyl Ether
7.2. Methanol
8. Conclusions and Prospects
Author Information
Corresponding Author
Notes
Biographies
Acknowledgments
Abbreviations
2. Methane Electro-oxidation Mechanism and Kinetics
2.1. Direct Oxidation and Indirect Oxidation
2.2. Reaction Kinetics
2.3. Mechanistic Studies Based on Model Electrodes
3. Coke Formation over Nickel Catalysts
3.1. Mechanism and Kinetics
3.2. Factors Controlling the Coke Formation
3.3. Coke Formation over Sintered SOFC Nickel Cermet Anodes
3.4. Strategies To Suppress Coke Formation over Nickel Cermet Anodes
4. Sulfur Poisoning
4.1. Types and Critical Amount of Sulfur Contaminants
4.2. Possible Poisoning Mechanisms
4.3. Strategies for Sulfur Mitigation
5. Redox Stability
5.1. Redox Behavior of Ni-Based Cermet Anodes
5.2. Possible Solutions
6. Cogeneration of Electric Power and Syngas
7. SOFCs Operating on Oxygenated Methane Fuels
7.1. Dimethyl Ether
7.2. Methanol
8. Conclusions and Prospects
Author Information
Corresponding Author
Notes
Biographies
Acknowledgments
Abbreviations
보고서작성신청
지난 세기 동안에 인류는 화석 연료에 의존해 왔다. 최근에는 화석 연료가 고갈되어 가고 또한 화석 연료를 사용함에 따른 환경 오염도 심각한 문제로 대두 되어 있어서 대체 연료 연구가 중요해 졌다. 그 중에서도 연료 전지는 유망한 대체 연료이다. 본 자료는 이러한 연료 전기의 발전 현황을 정리하고 있고, 특히 메탄올을 사용하고 니켈 기반의 양극 물질을 사용하는 고체 연료 전지를 집중적으로 다루고 있다.