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压裂-注氮原位裂解油页岩加热工艺及传热模拟 被引量:13

Heating Technology and Heat Transfer Simulation for Oil Shale of In-situ Pyrolysis by Fracturing and Nitrogen Injection
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摘要 提出了一种油页岩地下原位转化的新方法,即压裂-注氮原位裂解油页岩技术.油页岩储层压裂后,在加热井内下入电加热器,然后向井内注入氮气,利用加热后的高温氮气原位裂解油页岩.介绍了该方法与传统的电加热法和对流加热法相比的优势,以及特别适用的地层,并且对加热氮气过程进行了传热模拟,优化了气体加热器的参数,确定加热器的最佳长度为30 m,其热流密度为11 k W/m2.针对本工艺方法特别适用的薄层油页岩地下原位开采,进行了地层加热时间的传热模拟,确定了80 d即可将井距15 m,矿层1.5 m厚的油页岩加热到裂解温度,较电加热法和对流加热法的加热时间明显缩短. A new method for the in-situ conversion of oil shale was introduced i.e.,oil shale in-situ pyrolysis technique by fracturing and nitrogen injection.Electrical heater was put into the heating well and nitrogen was then pumped into the well.As a result,the oil shale layer was pyrolyzed by heated nitrogen.The advantages of the proposed method and the suitable layers were also introduced in comparison with traditional electrical heating and convective heating,and a computer simulation was done for the heating process of nitrogen.The parameters of the heater were optimized and it was confirmed that the length of the electrical heater was 30 m and the heat flux was 1 1 kW/m2 .Finally,based on the suitable thin oil shale layers,it was verified by the computer simulation that the heating time is 80 days under the condition that the distance of the heating well and the production well is 15 m while the thickness of the oil shale layer is 1.5 m. Obviously,the time is shortened compared with traditional electrical heating or convective heating.
作者 姜鹏飞 孙友宏 郭威 李强
机构地区 吉林大学建设工程学院
出处 《东北大学学报(自然科学版)》 EI CAS CSCD 北大核心 2015年第9期1353-1357,1368,共6页 Journal of Northeastern University(Natural Science)
基金 教育部跃升计划专项 吉林省战略性新兴产业发展项目(2013Z050)
关键词 油页岩 气体加热器 注氮气 传热模拟 加热时间 oil shale gas heater nitrogen injection heat transfer simulation heating time
分类号 TD83 [矿业工程—煤矿开采]
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参考文献11

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二级参考文献24

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共引文献32

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引证文献13

二级引证文献48

东北大学学报(自然科学版)
2015年 第9期

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