超前脉冲中子测井——PMCD井的优化解决方案:以印尼石油发现为例

D. Kusuma, Taufik Nordin, A. Wijaya, Azlan Shah B Johari, Z. Ernando, Rosli bin Ismail, Hilman bin Roslan, Heri Tanjung, Jorge Gonzales Iglesias, Ratna Dewanda, Piko Satria Danda
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引用次数: 0

摘要

ABC-1探井是在印度尼西亚东爪哇海上Ngimbang组碳酸盐岩堆积构造中钻探的。标准的三组裸眼测井是通过随钻测井的方式获得的,随后计划进行更先进的电缆测井。不幸的是,钻井过程中出现了完全的漏失,必须通过加压泥浆帽钻井(PMCD)来控制,这使得在剩余的井段中无法回收岩屑。为了安全钻井,还需要多次下钻,导致井眼变大。在这种情况下,裸眼电缆测井无法进入井段下部的目标层。尽管没有获得足够的数据来进行全面的地层评价,但完井是不可避免的。为了获得所需的剩余数据,决定使用先进的脉冲中子测井(PNL)设备来补充裸眼数据,该设备提供了几种独特的测量方法,以应对恶劣的条件。其中一些关键测量包括:(1)自补偿算法,该算法提供了鲁棒sigma (SIGM)和套管井孔隙度测量(TPHI),用于进一步验证LWD产生的中子。(2)采用捕获和非弹性高清晰度元素谱测量相结合的方法,获得了精确的矿物组分。(3)碳氧比(COR)高精度测量,计算含油饱和度。最后(4),还获得了快中子捕获截面(FNXS)测量数据,以便深入了解致密层中可能存在的气体。经过3次获取的先进PNL显示出sigma, TPHI, FNXS和元素光谱测量的一致读数。然而,在COR通道之间存在一些差异,这最终揭示了该井发生的事情。第一次探测并没有真正显示出沿碳酸盐体有任何潜在的石油。然后,第二步开始在碳酸盐顶部附近发现潜在的石油,那里的电阻率很低,没有明显的中子密度交叉。第三次探测显示,沿顶部碳酸盐岩的油量更大。有一种可能性是,石油读数的增加可能是由于测井过程中环境的变化,使得一些侵入物沿着碳酸盐岩顶部消散。这意味着,如果侵入流体开始消散,那么在发现的油层下面可能还存在另一个油层。随后的试井显示,在PNL解释确定的区间内,ABC-1的产油量显著,这使得ABC-1成为2021年印尼最成功的勘探井之一。该案例表明,利用先进脉冲中子测井技术在复杂条件下进行地层综合评价是成功的,可为今后解决类似钻井挑战提供参考。
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Advance Pulsed Neutron Logging – An Optimized Solution in PMCD Well: Case Study of Oil Discovery in Indonesia
ABC-1 exploration well was drilled through a carbonate build-up structure of Ngimbang Formation in offshore East Java, Indonesia. Standard triple-combo open hole logs were acquired by means of logging while drilling, while more advance wireline loggings were planned subsequently. Unfortunately, there were total losses during drilling which had to be managed by pressurized mud cap drilling (PMCD) which prevent from cuttings recovery for the rest of the interval. Multiple trips were also required to drill the well safely resulting in rugose and enlarged borehole. These conditions did not allow open-hole wireline log to access the target located at the lower interval of the well. It was inevitable to complete the well despite not enough data had been acquired to perform a comprehensive formation evaluation. In order to obtain remaining required data, it was decided to complement the compromised open-hole data with an advance pulsed neutron log (PNL) device, which offered several unique measurements to tackle the harsh conditions. Some of these key measurements are: (1) a self-compensation algorithm which provided robust sigma (SIGM) and cased-hole porosity measurement (TPHI), which was used to further validate neutron from LWD. (2) A combination of both capture and inelastic high definition elemental spectra measurement were utilized to obtain accurate mineralogy fraction. (3) carbon-oxygen ratio (COR) high precision measurement to calculate oil saturation. Lastly (4), fast neutron capture cross-section (FNXS) measurement was also acquired to give insight on possible gas occurrence even in tight zones. The advance PNL, acquired over 3 passes, showed consistent reading of sigma, TPHI, FNXS and elemental spectroscopy measurement. However, there were some discrepancies in between COR passes, which eventually has shed some light on what happened in this well. The first pass did not really show any potential oil along the carbonate body. Then, the second pass started to reveal potential oil around the top part of the carbonate, where resistivity is low with no distinctive neutron-density crossover. The third pass revealed an even more oil volume along the top carbonate. There is a possibility that the increase of oil reading might be due to the changing environment during logging, allowing some invasion to dissipate along the carbonate tops. This implies that there might be yet another oil zone below the revealed oil interval, should the invasion fluid start to dissipate. Subsequent well test showed significant oil production over the interval identified from the PNL interpretation, which put ABC-1 as one of the most successful Indonesian exploration well in 2021. This case study shows the success of utilizing advance pulsed neutron log to perform comprehensive formation evaluation under challenging condition, which can be used as reference for tackling similar drilling challenges in the future.
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