胡亮, 马兰荣, 谷磊, 李丹丹, 韩艳浓. 高温高压对微波破岩效果的影响模拟研究[J]. 石油钻探技术, 2019, 47(2): 50-55. DOI: 10.11911/syztjs.2019020
引用本文: 胡亮, 马兰荣, 谷磊, 李丹丹, 韩艳浓. 高温高压对微波破岩效果的影响模拟研究[J]. 石油钻探技术, 2019, 47(2): 50-55. DOI: 10.11911/syztjs.2019020
HU Liang, MA Lanrong, GU Lei, LI Dandan, HAN Yannong. Simulation Study on the Influences of HTHP on the Results of Microwave Rock Breaking[J]. Petroleum Drilling Techniques, 2019, 47(2): 50-55. DOI: 10.11911/syztjs.2019020
Citation: HU Liang, MA Lanrong, GU Lei, LI Dandan, HAN Yannong. Simulation Study on the Influences of HTHP on the Results of Microwave Rock Breaking[J]. Petroleum Drilling Techniques, 2019, 47(2): 50-55. DOI: 10.11911/syztjs.2019020

高温高压对微波破岩效果的影响模拟研究

Simulation Study on the Influences of HTHP on the Results of Microwave Rock Breaking

  • 摘要: 为了将微波破岩技术应用于石油钻井,研究了钻井过程中高温高压对微波破岩效果的影响。根据岩石不同矿物成分的微波吸收特性,建立了某岩石的二维平面模型,模拟分析了温度、围压及二者共同作用对微波破岩效果的影响。研究发现:在微波照射参数相同的情况下,随着井下温度升高,岩石发生塑性变形的时间缩短;随着井下围压增大,岩石塑性变形时间延长;温度和围压共同作用时,围压的影响占主导作用,而温度的影响主要在高温条件下体现。研究结果表明,围压不利于微波破岩,且影响较大;温度对微波破岩有一定促进作用,但只在高温条件下作用明显。因此,应用微波进行破岩时要综合考虑温度和围压变化对破岩效果的影响,及时调整微波参数,使破岩更加经济高效。

     

    Abstract: In order to apply a microwave rock breaking technology in petroleum drilling, the influences of HTHP on the microwave rock breaking result during drilling were studied. According to the microwave absorption characteristics of rock components, a two-dimensional plane model of a rock was established, and the influences of temperature, confining pressure and the combination of both the two on microwave rock breaking result were simulated. The study result found that under the same microwave irradiation parameters, the plastic deformation time of rock shortened with the increase of downhole temperature, and the plastic deformation time of rock increased with the increase of downhole confining pressure. Considering the combined results of both temperature and confining pressure, the influence of confining pressure was dominant, while the effect of temperature mainly exerted under high temperature conditions. The results showed that the confining pressure did not result in microwave rock breaking, and the influence was obvious; temperature had a certain promotion effect on microwave rock breaking, but such an effect was evident only under high temperature conditions. Therefore, when applying microwave in rock breaking, it is necessary to comprehensively consider the influences of temperature and confining pressure on rock breaking results, and to adjust the microwave parameters in time to make the rock breaking more economical and efficient.

     

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