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  2013, Issue (11): 137-143    
  研究与探讨 本期目录 | 过刊浏览 | 高级检索 |
基于系统动力学的碳捕捉与封存实施方案评价研究
王众1, 匡建超1, 庞河清2, 霍志磊3
1.成都理工大学管理科学学院, 四川 成都 610059;
2.中国石化西南油气分公司博士后科研工作站, 四川 成都 610041
;3.成都理工大学核技术与自动化工程学院, 四川 成都 610059
Assessment of Carbon Dioxide Capture and StorageImplementation Scheme based on System Dynamic
Wang Zhong1, Kuang Jianchao1, Pang Heqing2, Huo Zhilei3
1.College of Management Science, Chengdu University of Technology, Chengdu 610059, China;
2.Postdoctoral Station, Southwest Oil Gas Field Company, SINOPEC, Chengdu 610041, China;
3.College of Nuclear Technology and Automation Engineering, Chengdu University of Technology, Chengdu 610059, China
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摘要 本文以超临界燃煤电厂排放的深部盐水层封存作为我国主要的CCS实施方案, 从一体化的角度运用系统动力学方法对该方案进行建模与分析。模型综合考虑了CCS的减排效果、能耗和经济效益, 理清了CSS系统要素之间的相互影响关系和反馈机制。仿真结果表明该方案可以减排电厂总排放量的80%以上, 但减排成本高达66.81元/吨, 同时消耗煤炭0.0905吨。在此基础上进一步分析了碳交易价格和技术进步对CCS的影响, 结果表明:若无碳交易机制支持, CCS单位减排成本将增加52%。
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王众
匡建超
庞河清
霍志磊
关键词 碳捕捉与封存(CCS)系统动力学深部盐水层学习曲线评价    
Abstract:This paper designs a CCS implementation scheming for China which takes super-critical pulverized coal power plant as the emission source and takes deep saline formation as the storage option, and uses system dynamic methodology to modeling and analyzing the scheme.This model takes mitigation effect, extra energy consumption and economic benefits into account, and also figures out the influence of each element and feedback mechanism in CCS system.The simulation results showed that this scheme can reduce 80% of the CO2 emitted by power plant, but the capital mitigation cost is high which has reached 66.81 yuan and consumed extra 0.0905 tons of coal.Based on that, a further analysis is made to investigate the impact of carbon trading price and technology progress on CCS.The results showed that without the support of carbon trading system, the capital mitigation cost would increase by 52%.
Key wordsCarbon capture and storage (CCS)    System dynamics    Deep saline formation (DSF)    Learning curve    Assessment
收稿日期: 2013-03-27     
PACS:  F062.4  
作者简介: 王众(1983-), 四川成都人, 工学博士, 讲师;研究方向:能源项目技术经济评价, 能源-环境-经济建模。
引用本文:   
王众;匡建超;庞河清;霍志磊. 基于系统动力学的碳捕捉与封存实施方案评价研究[J]. , 2013(11): 137-143.
Wang Zhong;Kuang Jianchao;Pang Heqing;Huo Zhilei. Assessment of Carbon Dioxide Capture and StorageImplementation Scheme based on System Dynamic. , 2013(11): 137-143.
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