大体积、水淹、高黏度稠油井的富凝析气吞吐工艺,伊拉克案例研究

Xue Tang, Ruifeng Wang, Zhongliang Cheng, Hui Lu
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引用次数: 0

摘要

伊拉克Halfaya油田包含多个垂直堆叠的油气聚集。深度超过10,000英尺的主要油层正在初步开发中。主要的技术挑战包括下倾稠油井(API低至14.56°)由于地层压力降低而发生水淹并停止生产。表面黏度超过10,000 cp的重质原油粘度太大,无法有效提升。作业者使用高压富气/凝析油对死井进行再加压,恢复生产。技术亮点如下:实验室研究证实,凝析油(45-52ºAPI)与重油混合后,调合油粘度可降低高达90%;泡沫油形成,以缓解其流动到表面在充气过程中。原位注气/凝析气/凝析油举升既适用于穿透上部高压富凝析气层的油井,也适用于穿透下部油层的油井。高压气/凝析油注入油区,浸泡后,油从环空流出,以最小的压降实现大体积井流。上部区域的天然气/凝析油可以提升井流,而无需额外安装人工举升装置。通过优化射孔间距和射孔密度,优化注入压力和气凝析油比,开发更多的凝析油,如初始凝析油速率为1000桶/天,以稀释稠油。对于多口井,在生产层段底部设置多个泄油孔,采用重力泄油或水锥下作业,如果采用较长的注入浸泡过程(如2 ~ 4周)来扩大稠油层的稀释层,则可以在较好的重力稳定垂直(向下)驱和有限水锥下实现额外采收率。现场数据表明,该工艺可以使死井恢复活力,在井口流动压力为800 ~ 900 psig的情况下,井的产量达到约3000桶/天,与以前的产油速度相比,产油量增加了3倍以上;含水率从30%降至零;处理中原油的调质较好;并节省人工举升成本。该工艺作为一种经济有效的技术,在中东地区类似的油气藏中具有广泛的应用前景。
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Rich-Gas Condensate Huff and Puff Process in High-Volume, Watered-Out, and Highly Viscous Heavy Oil Wells, Case Study in Iraq
Halfaya field in Iraq contains multiple vertically stacked oil and gas accumulations. The major oil horizons at depth of over 10,000 ft are under primary development. The main technical challenges include downdip heavy oil wells (as low as 14.56 °API) became watered-out and ceased flow due to depleted formation pressure. Heavy crude, with surface viscosities of above 10,000 cp, was too viscous to lift inefficiently. The operator applied high-pressure rich-gas/condensate to re-pressurize the dead wells and resumed production. The technical highlights are below: Laboratory studies confirmed that after condensate (45-52ºAPI) mixed with heavy oil, blended oil viscosity can cut by up to 90%; foamy oil formed to ease its flow to the surface during huff-n-puff process.In-situ gas/condensate injection and gas/condensate-lift can be applied in oil wells penetrating both upper high-pressure rich-gas/condensate zones and lower oil zones. High-pressure gas/condensate injected the oil zone, soaked, and then oil flowed from the annulus to allow large-volume well stream flow with minimal pressure drop. Gas/condensate from upper zones can lift the well stream, without additional artificial lift installation.Injection pressure and gas/condensate rate were optimized through optimal perforation interval and shot density to develop more condensate, e.g. initial condensate rate of 1,000 BOPD, for dilution of heavy oil.For multilateral wells, with several drain holes placed toward the bottom of producing interval, operating under gravity drainage or water coning, if longer injection and soaking process (e.g., 2 to 4 weeks), is adopted to broaden the diluted zone in heavy oil horizon, then additional recovery under better gravity-stabilized vertical (downward) drive and limited water coning can be achieved. Field data illustrate that this process can revive the dead wells, well production achieved approximately 3,000 BOPD under flowing wellhead pressure of 800 to 900 psig, with oil gain of over 3-fold compared with previous oil rate; water cut reduction from 30% to zero; better blended oil quality handled to medium crude; and saving artificial-lift cost. This process may be widely applied in the similar hydrocarbon reservoirs as a cost-effective technology in Middle East.
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