It interprets actual well testing data of gas Wells using this model, and interpretation result is in accordance with actual status.
利用此模型对气井实际试井资料进行了解释,解释结果与实际情况相符。
The paper introduces the interpretation method, analysis property and influence factor of formation pressure in well testing analysis.
介绍了地层压力在试井分析过程中的解释方法、分析特征及影响因素。
This paper briefly introduces the characteristic and function of the modern well testing interpretation chart of Gringarten et al.
本文扼要介绍了格林加顿等人的现代试井解释图版的特点及功能。
By analyzing former interpreting data of instability testing, problems often appearing well testing interpretation are summarized to stop those mistakes happen again.
通过分析以往不稳定试井解释资料,对试井解释中经常出现的问题进行总结,杜绝此类错误再次发生。
The composite model is used for the two unstable well testing interpretation models of this well.
该井两次不稳定试井解释模型都选用复合模型,并通过评价说明该井有很好的前景。
Conventional and modern well test analysis methods are successful only in the interpretation of the middle period of well testing data, but they fail to analysis the early period data.
常规试井和现代试井分析方法只成功地处理了中期试井资料,对早期试井资料的分析往往是失败的。
Using well testing interpretation of chart match and characteristic value method, stratigraphic parameters are received and proved by examples.
对多层气藏试井分析方法进行了研究,主要包括图版拟合方法和特征值分析方法,并用实例加以论证。
Because it is difficulty for estimating parameters of well and formation., it is different between design goal of well testing and results of test and results in interpretation error of data.
由于对油气井和地层参数估计困难,设计目标与实施结果可能存在较大的差异,导致测试资料的可解释性差。
Formation parameters derived from acquired data accordant well to core analysis results, and its interpretation accordant rate is up to 91.7% during oil (gas) well testing of 16 Wells (24 layers).
资料解释所得到的储层参数与岩心分析结果具有良好的一致性,在16口油(气)井(24层)试油(气)结果中,解释符合率高达91.7%。
Formation parameters derived from acquired data accordant well to core analysis results, and its interpretation accordant rate is up to 91.7% during oil (gas) well testing of 16 Wells (24 layers).
资料解释所得到的储层参数与岩心分析结果具有良好的一致性,在16口油(气)井(24层)试油(气)结果中,解释符合率高达91.7%。
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