Native aluminum as indicator of hydrogen degassing in the formation of hydrocarbon fields

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS
A. Lukin, I. Koliabina, V. Shestopalov, A. Rud
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引用次数: 0

Abstract

This work considers the possibility of native aluminum transport with hydrogen fluid, its deposition and preservation in sedimentary rocks, as well as an assessment of the conditions under which this is possible. This problem is currently debatable and is considered in a number of publications. Native aluminum was found in different types of sedimentary rocks of oil-and-gas-bearing basins. So the presence of native aluminum spherulas was established in the dolomites of the Dnipro-Donetsk Basin. By the example of these findings this work shows that the necessary conditions for the formation and long-term preservation of native aluminum are: its migration with the hydrogen flow into the upper layers of the Earth’s crust, the creation of temperature and pressure conditions causing water to vaporize, and the formation of a protective film on the surface of the formed native aluminum. The process of native aluminum formation in the sedimentary rocks of oil-and-gas-bearing deposits of the Dnipro-Donetsk Rift described in this work, as well as its findings in other basins indicates the typical character of this process for rift structures of hydrocarbon accumulation. It was assumed, that the oil-and-gas-bearing structure of Dnipro-Donetsk Rift is mantle origin and represents a giant source of deep hydrogen. Some of this hydrogen is consumed to form hydrocarbon accumulations, including known oil and gas deposits, and some of it degasses into the uppermost layers of the Earth’s crust. Independent hydrogen fields can also form there, as was the case during the formation of the deposit of geological hydrogen in Mali. It was shown, that the presence of hydrocarbons in the fluids does not affect the processes associated with aluminum. The results obtained indicate significant flows of hydrogen from the mantle to the upper horizons of the Earth’s crust. Thus, native aluminum, as well as other native oxyphilic metals in sedimentary rocks of oil-and-gas bearing basins is a search marker of both hydrocarbon accumulations and the important role of deep geological hydrogen in the formation of these accumulations and its possible accumulation in the most reliable traps.
天然铝作为油气田形成中氢气脱气的指示剂
这项工作考虑了利用氢流体输送天然铝的可能性、其在沉积岩中的沉积和保存,以及对可能发生这种情况的条件的评估。这个问题目前是有争议的,许多出版物都对其进行了审议。在含油气盆地的不同类型沉积岩中发现了原生铝。因此,在第聂伯罗-顿涅茨克盆地的白云岩中确定了天然铝球的存在。通过这些发现的例子,这项工作表明,天然铝形成和长期保存的必要条件是:它随着氢流迁移到地壳上层,产生导致水蒸发的温度和压力条件,以及在形成的天然铝表面形成保护膜。本文描述的第聂伯罗-顿涅茨克裂谷含油气矿床沉积岩中天然铝的形成过程,以及在其他盆地中的发现,表明了这一油气聚集裂谷结构过程的典型特征。据推测,第聂伯罗-顿涅茨克裂谷的含油气结构起源于地幔,代表着深层氢的巨大来源。其中一部分氢被消耗以形成碳氢化合物堆积,包括已知的石油和天然气沉积,另一部分则脱气进入地壳最上层。独立的氢场也可以在那里形成,就像马里地质氢矿床形成时的情况一样。研究表明,流体中碳氢化合物的存在不会影响与铝相关的过程。所获得的结果表明,大量的氢从地幔流到地壳的上层。因此,含油气盆地沉积岩中的天然铝以及其他天然亲氧金属是油气聚集的搜索标志,也是深层地质氢在这些聚集的形成中的重要作用及其在最可靠圈闭中的可能聚集。
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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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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