%0 Journal Article
%T 基于优势方位RGB融合的低序级断层识别技术<br>Low-Order Faults Recognition Technology Based on Dominant Azimuth RGB Fusion
%A 王若腾
%J Advances in Geosciences
%P 881-888
%@ 2163-3975
%D 2025
%I Hans Publishing
%R 10.12677/ag.2025.156084
%X 低序级断层的识别对于发现剩余油有利富集区、提高油气采收率具有重要的研究意义&#65292;渤南地区北部断裂系统发育&#65292;常规叠后资料上低序级断层的反射特征不明显&#65292;识别精度低&#65292;制约着该区域的勘探开发。针对以上问题&#65292;文章基于五维地震数据&#65292;划分优势偏移距和方位扇区&#65292;结合现有地质认识&#65292;优选断层法向方位&#65292;并通过RGB属性融合技术&#65292;有效提高了低序级断层的识别精度&#65292;明晰了断层展布特征&#65292;为研究区的构造精细描述和滚动开发提供了技术支撑。<br>The identification of low-order faults is of significant research importance for discovering favorable accumulation areas of remaining oil and improving oil and gas recovery rates. In the northern part of the Bonan region, a fault system is well developed, but the reflection characteristics of low-order faults in conventional post-stack data are not obvious, resulting in low identification accuracy, which restricts exploration and development in this area. To address these issues, this paper focuses on five-dimensional seismic data, categorizes dominant offset distances and azimuth sectors, and combines existing geological knowledge to optimize the fault-normal azimuth. By employing RGB attribute fusion technology, the identification accuracy of low-order faults has been effectively improved, clarifying the fault distribution characteristics and providing technical support for the fine structural description and rolling development of the research area.
%K OVT数据&#65292
%K RGB融合&#65292
%K 低序级断层识别<br>OVT Data
%K RGB Fusion
%K Low-Order Faults Recognition
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=118212