On the time of well transition to industrial production mode

Y. Voitenko, V. Vapnichna, M. Krivtsov, O. Voitenko
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Abstract

The purpose of the article wasanalysis of the reasons for the different velocity of transition of the "well-reservoir" system from one thermodynamic state to another based on experimental data on time and main energy parameters for the conditions of gas and oil and gas fields. The methods. Experimental determination of the transition time of wells to industrial production mode; and analysis of experimental data. Findings. The transition time of the "well-reservoir" system from one thermodynamic state to another is determined by the internal energy of the reservoir and depends on the energy of external influence and the determining parameters: reservoir pressure and temperature. For traditional reservoirs - collectors, including for reservoirs with low reservoir pressures, it is 104 - 107 s. For formations with high formation pressures, the forecast time for the transition of the well to the mode of industrial production or emergency release of formation fluid is 100 - 103 s. Theoriginality. The work shows that in the case of low-energy impact, structural changes in rocks in reservoir conditions occur under sublimit slow loads at the level of approximately 40...70% of the limit value of the dynamic strength of the reservoir rock. It is experimentally shown that the transition of the "well-reservoir" system from one thermodynamic state to another flows for a time that depends on the internal energy of the reservoir and it decreases from t=104 – 107 s to t=100 – 103 and from ln t = 9.3...14.8 to ln t = 0...6.9 in the case of an increase in the energy of external influence, or reservoir parameters - pressure and temperature. Practicalimplementation. The transition time of the "well-reservoir" system from one thermodynamic state to another is determined by the internal energy of the reservoir and depends on the energy of external influence and the determining parameters: reservoir pressure and temperature, as well as the energy of elastic or elastoplastic deformation of the rock. The practical value is the ability to determine the type of oil and gas deposit based on this parameter and choose equipment.
在向工业生产方式过渡的时候
根据油气田条件下的时间和主要能量参数实验数据,分析了“井-储”系统从一种热力状态向另一种热力状态过渡速度不同的原因。的方法。井向工业生产方式过渡时间的实验确定并对实验数据进行分析。发现。“井-储”系统从一种热力学状态到另一种热力学状态的过渡时间由储层的内能决定,并取决于外部影响的能量和决定参数:储层压力和温度。对于传统的储层集热器,包括储层压力较低的储层,则为104 - 107s。对于地层压力较高的地层,井过渡到工业生产模式或紧急释放地层流体的预测时间为100 ~ 103秒。Theoriginality。研究表明,在低能量冲击的情况下,储层条件下岩石的结构变化发生在约40…储层岩石动强度极限值的70%。实验表明,“井-储”系统从一种热力学状态到另一种热力学状态的转变时间取决于储层的内能,在外部影响能量或储层参数——压力和温度——增加的情况下,从t=104 - 107秒到t=100 - 103秒,从ln t= 9.3…14.8到ln t= 0…6.9。Practicalimplementation。“井-储”系统从一种热力学状态到另一种热力学状态的过渡时间由储层内部能量决定,取决于外部影响能量和决定参数:储层压力和温度,以及岩石的弹性或弹塑性变形能量。实用价值是根据该参数确定油气矿床类型和选择设备的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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