Main characteristics and effectiveness analysis of potential helium source rocks in crust-source helium-rich natural gas reservoirs

Dong Zhao , Xiaofeng Wang , Wenhui Liu , Dongdong Zhang , Xiaofu Li
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Abstract

The evaluation of potential helium source rocks’ effectiveness is a core issue in the field of helium resource exploration and development. However, previous studies predominantly rely on uranium (U) and thorium (T) contents and the age of the rock for evaluating the effectiveness of potential helium source rocks, which fails to fully characterize the key factors affecting their effectiveness. Therefore, this paper takes four typical potential helium source rocks—granite, mud shale, gneisses, and bauxite, as the research object. Through the establishment of a calculation model for accumulated dissolved helium in pore water, combined with gas reservoir examples, a quantitative analysis of dissolved helium accumulation and exsolution in the pores of each potential helium source rock is carried out. This analysis aims to discuss and summarize the effectiveness of each potential helium source rock and the evaluation method for identifying effective helium source rocks. It is believed that: (1) The exsolution of dissolved helium accumulated in the pores of potential helium source rocks into free helium on a large scale under suitable conditions is the key prerequisite for identifying their effectiveness; (2) In addition to the content of U and Th elements, parameters such as large volume, suitable porosity, and water saturation, the good matching relationship of “sedimentary and burial history, gas accumulation history and tectonic evolution history”, and relatively specific helium generation ability are also the key parameters for judging the effectiveness of potential helium source rocks; (3) By establishing the calculation method of dissolved helium enrichment efficiency (ηHe), it is concluded that under similar conditions, free helium enrichment is most easily achieved in granite, followed by mud shale and bauxite, while gneiss poses the greatest difficulty.

地壳源富氦天然气储层潜在氦源岩的主要特征和有效性分析
潜在氦源岩的有效性评估是氦资源勘探和开发领域的核心问题。然而,以往的研究主要依靠铀(U)、钍(T)含量和岩石年龄来评价潜在氦源岩的有效性,未能全面表征影响其有效性的关键因素。因此,本文以四种典型的潜在氦源岩--花岗岩、泥页岩、片麻岩和铝土矿为研究对象。通过建立孔隙水中溶解氦累积计算模型,结合气藏实例,对各潜在氦源岩孔隙中溶解氦的累积和溶出情况进行了定量分析。该分析旨在讨论和总结各潜在氦源岩的有效性,以及确定有效氦源岩的评价方法。我们认为(1)潜在氦源岩孔隙中积累的溶解氦在适宜条件下大规模溶解为游离氦,是确定其有效性的关键前提;(2)除铀、钍元素含量外,体积大、孔隙度适宜、含水饱和等参数,"沉积埋藏史、气体积累史、构造演化史 "的良好匹配关系,以及相对特异的氦生成能力,也是判断潜在氦源岩有效性的关键参数;(3)通过建立溶解氦富集效率(ηHe)的计算方法,得出在相似条件下,花岗岩最易实现自由氦富集,泥页岩和铝土矿次之,片麻岩难度最大。
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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