水平页岩气井油管下深对排采效果的影响

页岩气井及时采用油管生产能够有效地保证气井的稳定递减,但油管下至哪个位置对气井稳产最有利,井身轨迹对该位置是否有影响尚无深入研究。为了确定油管的合理下入深度,通过水平井全井筒试验装置的气水流动实验,对油管下深至积液水平段、斜井段不同位置处(水平段和斜井段分别积液情况时,油管下深至斜井段上端、水平段跟端、水平段1/3处、水平段2/3处及水平段趾端)试验管段内的积液特征以及出口排液量进行了分析。结果表明,水平段下倾时,油管下入斜井段携液气体液量最小,水平段上倾且油管下入水平段1/3处携液气体流量最小。然后利用全动态多相流模拟系统OLGA,以威204HX平台几口井的气井产能方程、气井井身结构、地层压力下降梯度作为基本参数,对不同井身轨迹时油管不同下深对应的气井生产过程的井筒积液进行了模拟。结果表明,水平段上倾累计产气量大于水平段下倾累计产气量,水平段上倾且油管下入水平段1/3处气井的累计产气量最大。综合分析,油管下入水平段1/3附近对水平页岩气井排采最为有利。

支撑剂非均匀分布对页岩气井产能的影响

通过建立考虑支撑剂非均匀铺置的页岩气产能预测模型,分析了支撑剂均匀铺置与非均匀铺置2种方式下储层与裂缝参数对气井产能的影响。模拟结果表明:支撑剂浓度低和裂缝导流能力小时,支撑剂非均匀分布大大降低了气井产能,当裂缝导流大于4μm^2·cm时,可忽略非均匀铺砂对产能影响;非均匀铺砂对产能影响最敏感的参数是基质渗透率,其次依次是裂缝半长、导流能力和簇间距;对涪陵X区页岩气藏,均匀铺砂方案比非均匀铺砂方案下的10 a累积产气量高35.6%。

控压钻井技术在涪陵页岩气田的实践与认识

随着涪陵页岩气田勘探开发进程的不断深入,长水平段页岩气井在钻井过程中遇到的复杂事故愈发凸显。目的层龙马溪组,裂缝发育、岩性构成复杂且破碎严重,钻井中钻井液密度窗口窄,易发生垮塌、溢漏同存、水平井段漏失大量油基泥浆等问题。为了快速、安全有效地钻穿复杂页岩层段,采用控压钻井技术破解长水平段页岩气井井漏的钻井难题,在焦页33-4HF井应用控压钻井技术,在长水平段钻遇多个不同压力系数的漏失显示层,安全钻达完钻井深,大大减少了油基泥浆的漏失及其不良影响,减小了经济损失,取得了显著应用效果。

Rate decline analysis of multiple fractured horizontal well in shale reservoir with triple continuum

Multiple fractured horizontal well(MFHW) is widely applied in the development of shale gas. To investigate the gas flow characteristics in shale, based on a new dual mechanism triple continuum model, an analytical solution for MFHW surrounded by stimulated reservoir volume(SRV) was presented. Pressure and pressure derivative curves were used to identify the characteristics of flow regimes in shale. Blasingame type curves were established to evaluate the effects of sensitive parameters on rate decline curves, which indicates that the whole flow regimes could be divided into transient flow, feeding flow, and pseudo steady state flow. In feeding flow regime, the production of gas well is gradually fed by adsorbed gases in sub matrix, and free gases in matrix. The proportion of different gas sources to well production is determined by such parameters as storability ratios of triple continuum, transmissibility coefficients controlled by dual flow mechanism and fracture conductivity.