管理不确定性，交付复杂的开发井

ASEG Extended Abstracts Pub Date : 2019-12-01 DOI:10.1080/22020586.2019.12073106

Peter J. van Ruth, M. Agarwal, Scott Gagen

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摘要

控制地震深度的不确定性是水平井进入薄储层的关键考虑因素。地震深度的不确定性有可能通过错过储层(延迟着陆或储层退出)和/或纠正措施的成本(例如侧钻)来侵蚀项目价值。2018年，Laverda Canyon开发井的布置使用了30 Hz全波形反演速度模型和深部定向电阻率数据，并结合近实时深度更新过程来优化井的布置。利用这些方法大大降低了地震深度的不确定性，最终Laverda Canyon开发井(LAV04WI)在10-15米厚的储层中成功地进行了2200米的地质导向，只有一个储层出口。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Managing uncertainty to deliver complex development wells

Summary Managing seismic depth uncertainty is a key consideration in placing horizontal development wells into thin reservoir targets. Seismic depth uncertainty has the potential to erode project value through missed reservoir (late landing or reservoir exits) and/or the cost of corrective actions (e.g. sidetracks). The placement of Laverda Canyon development wells in 2018 utilised a 30 Hz full waveform inversion velocity model and deep directional resistivity data in combination with a near real-time depth update process to optimise well placement. Utilising these methods resulted in a significant reduction in seismic depth uncertainty which culminated in the final Laverda Canyon development well (LAV04WI) being successfully geosteered for ~ 2,200 m within a 10-15 m thick reservoir with only one reservoir exit.

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ASEG Extended Abstracts

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