联合循环
发电站
工艺工程
涡轮机械
环境科学
发电
工作(物理)
燃烧
朗肯循环
空气分离
化石燃料
废物管理
工程类
功率(物理)
燃气轮机
机械工程
氧气
化学
热力学
电气工程
物理
有机化学
作者
Wolfgang Sanz,Herbert Jericha,Mathias Moser,Franz Heitmeir
摘要
Introduction of closed-cycle gas turbines with their capability of retaining combustion generated CO2 can offer a valuable contribution to the Kyoto goal and to future power generation. Therefore, research and development at Graz University of Technology since the 1990s has lead to the Graz Cycle, a zero emission power cycle of highest efficiency. It burns fossil fuels with pure oxygen, which enables the cost-effective separation of the combustion CO2 by condensation. The efforts for the oxygen supply in an air separation plant are partly compensated by cycle efficiencies far higher than 60%. In this work a further development, the S-Graz Cycle, which works with a cycle fluid of high steam content, is presented. Thermodynamic investigations show efficiencies up to 70% and a net efficiency of 60%, including the oxygen supply. For a 100 MW prototype plant the layout of the main turbomachinery is performed to show the feasibility of all components. Finally, an economic analysis of a S-Graz Cycle power plant is performed showing very low CO2 mitigation costs in the range of $10/ton CO2 captured, making this zero emission power plant a promising technology in the case of a future CO2 tax.
科研通智能强力驱动
Strongly Powered by AbleSci AI