石油钻探技术
石油鑽探技術
석유찬탐기술
PETROLEUM DRILLING TECHNIQUES
2015年
2期
110-115
,共6页
何涛%郭建春%卢聪%景芋荃
何濤%郭建春%盧聰%景芋荃
하도%곽건춘%로총%경우전
压裂%压裂液%停泵时间%压力递减%数学模型
壓裂%壓裂液%停泵時間%壓力遞減%數學模型
압렬%압렬액%정빙시간%압력체감%수학모형
fracturing%fracturing fluid%shut-in time%pressure decline%mathematical model
第二次压裂与第一次压裂之间有一段停泵时间,停泵时间的长短目前主要依靠经验确定,容易产生较大误差,从而影响第二次压裂的效果。为此,在前人研究成果的基础上,将压裂前后的整个过程分成了注入阶段、续流阶段、裂缝闭合阶段和裂缝闭合后等4个阶段;考虑压裂液的续流效应和支撑剂体积的影响,并根据裂缝闭合后的压降分析,建立了续流阶段和裂缝闭合阶段时间及地层压力趋于稳定时间的计算模型。利用X区块压裂井的基本施工参数,对压裂液的续流时间、裂缝的净闭合时间进行了计算,对裂缝闭合后的压降进行了分析,对多口压裂井的第二次压裂效果进行了对比。实例分析发现,地层压力趋于稳定的时间即为第一二次压裂间合理的停泵时间,地层压力稳定的时间点为最佳停泵时间,在该点可以获得最佳压裂效果。研究表明,模拟结果和压裂后日产量对应的最佳停泵时间与模型计算结果相吻合,建立的模型可以较为准确地预测最佳停泵时间,这对于现场施工具有一定的指导作用。
第二次壓裂與第一次壓裂之間有一段停泵時間,停泵時間的長短目前主要依靠經驗確定,容易產生較大誤差,從而影響第二次壓裂的效果。為此,在前人研究成果的基礎上,將壓裂前後的整箇過程分成瞭註入階段、續流階段、裂縫閉閤階段和裂縫閉閤後等4箇階段;攷慮壓裂液的續流效應和支撐劑體積的影響,併根據裂縫閉閤後的壓降分析,建立瞭續流階段和裂縫閉閤階段時間及地層壓力趨于穩定時間的計算模型。利用X區塊壓裂井的基本施工參數,對壓裂液的續流時間、裂縫的淨閉閤時間進行瞭計算,對裂縫閉閤後的壓降進行瞭分析,對多口壓裂井的第二次壓裂效果進行瞭對比。實例分析髮現,地層壓力趨于穩定的時間即為第一二次壓裂間閤理的停泵時間,地層壓力穩定的時間點為最佳停泵時間,在該點可以穫得最佳壓裂效果。研究錶明,模擬結果和壓裂後日產量對應的最佳停泵時間與模型計算結果相吻閤,建立的模型可以較為準確地預測最佳停泵時間,這對于現場施工具有一定的指導作用。
제이차압렬여제일차압렬지간유일단정빙시간,정빙시간적장단목전주요의고경험학정,용역산생교대오차,종이영향제이차압렬적효과。위차,재전인연구성과적기출상,장압렬전후적정개과정분성료주입계단、속류계단、렬봉폐합계단화렬봉폐합후등4개계단;고필압렬액적속류효응화지탱제체적적영향,병근거렬봉폐합후적압강분석,건립료속류계단화렬봉폐합계단시간급지층압력추우은정시간적계산모형。이용X구괴압렬정적기본시공삼수,대압렬액적속류시간、렬봉적정폐합시간진행료계산,대렬봉폐합후적압강진행료분석,대다구압렬정적제이차압렬효과진행료대비。실례분석발현,지층압력추우은정적시간즉위제일이차압렬간합리적정빙시간,지층압력은정적시간점위최가정빙시간,재해점가이획득최가압렬효과。연구표명,모의결과화압렬후일산량대응적최가정빙시간여모형계산결과상문합,건립적모형가이교위준학지예측최가정빙시간,저대우현장시공구유일정적지도작용。
It is necessary to shut in the well between the first and second fracturing ,with the time in‐terval often determined by prior experience ,which may result a significant error .Moreover ,the selection of shut‐in time will directly affect the performance of secondary fracturing .Based on previous efforts ,this pa‐per divides the fracturing process into four stages :pumping ,frac fluid after‐flow ,fracture closure and after‐closure .Considering the influences of frac fluid after‐flow and proppant volume ,and through the pressure decline analysis of after‐closure ,the calculation model was established for after‐flow time and fracture clo‐sure time and the time w hen formation pressure became stable .By using basic fracturing parameters of the X block ,the after‐flow time and fracture closure times were calculated ,the pressure decline after fracture closure was analyzed ,and the performance of the secondary fracturing for several wells was compared .The results showed that the time when the formation pressure was stable corresponded to a reasonable shut‐in time between the first and second fracturing and it marked the optimum point in time at which the best fracturing performance could be achieved .The optimum shut‐in time gained from the simulation results and production after fracturing were consistent with that calculated by the model ,which demonstrated that the model could accurately predict the optimum shut‐in time w hich could be significant for guiding fracturing operations .
