V. Ishkov, Ye.S. Kozii, M. Kozar, A. Yerofieiev, S. Bartashevskiy, O. Dreshpak
{"title":"Peculiarities of the total content of metals in oil deposits of the Dnipro-Donetsk depression","authors":"V. Ishkov, Ye.S. Kozii, M. Kozar, A. Yerofieiev, S. Bartashevskiy, O. Dreshpak","doi":"10.33271/crpnmu/72.098","DOIUrl":null,"url":null,"abstract":"Purpose. To establish the peculiarities of the total content of metals in oil deposits of the Dnipro-Donetsk depression and to develop a classification of deposits by this indicator. Methodology. The factual basis of the research was the results of analyzes of metals in oil from 36 deposits of the Dnipro-Donetsk depression. With the help of X-ray fluorescent analysis, at least 30 oil samples from each deposit for metals content were investigated. The deposits are selected according to the principles of maximum completeness of geochemical information, their finding in different oil and gas areas of the Dnipro-Donetsk depression, different composition of the oil system, different geological types of traps, different structure of deposits and different ages of oil collectors. X-ray fluorescent analysis was performed on the energy-dispersive spectrometer \"SPRUT\" SEF 01. The time of accumulation of the spectrum 600 sec. Preparation and analysis were carried out according to the standard of ASTM D 4927 - \"Determination of the elemental composition of components of lubricants by X-ray fluorescent spectroscopy with dispersion by wavelength\". Correlation and regression analysis was carried out by methods that were implemented in the most popular professional statistical software platforms \"Statistica\" and \"SPSS\" and their analysis in geological concepts. Findigs. To evaluate the central characteristics of the total content of metals in oil, the deposits considered more correctly use not the arithmetic mean, but the median. It is proved that the total content of metals in oil considered is associated with a reverse correlation connection with resin content, the values of the modern temperature of the productive horizon, the modern depth of productive horizon, the mineralization productive horizons; and direct correlation with the concentrations of nickel, manganese, mercury, chromium, vanadium, aluminum, cobalt, zinc, iron, paraffin, asphalt, sulfur and oil viscos boiling and oil density. Scientific novelty. It consists in the development of the natural classification of oil deposits by the overall content of metals, and to establish a connection of this indicator with the concentration of individual elements of impurities, the main components of oil and the main geological and technological indicators of deposits of the Dnipro-Donetsk depression. Practical significance. Is to establish the concentrations and the possibility of forecasting the total content of metals in the Dnipro-Donetsk depression, which in turn provides the opportunity to solve the topical problems of practical direction. The solution of a number of industrial-raw materials based on the assessment of oil as an ore raw material, since the content of some elements in them sometimes exceeds ore concentrations, so there is a possibility of their concomitant industrial removal from by-products during processing processes. The solution of technological issues, which are caused by the negative impact of some elements contained in oil, on the geological environment, production technologies and the equipment used in the course of their extraction and processing.","PeriodicalId":10466,"journal":{"name":"Collection of Research Papers of the National Mining University","volume":"75 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Collection of Research Papers of the National Mining University","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.33271/crpnmu/72.098","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Purpose. To establish the peculiarities of the total content of metals in oil deposits of the Dnipro-Donetsk depression and to develop a classification of deposits by this indicator. Methodology. The factual basis of the research was the results of analyzes of metals in oil from 36 deposits of the Dnipro-Donetsk depression. With the help of X-ray fluorescent analysis, at least 30 oil samples from each deposit for metals content were investigated. The deposits are selected according to the principles of maximum completeness of geochemical information, their finding in different oil and gas areas of the Dnipro-Donetsk depression, different composition of the oil system, different geological types of traps, different structure of deposits and different ages of oil collectors. X-ray fluorescent analysis was performed on the energy-dispersive spectrometer "SPRUT" SEF 01. The time of accumulation of the spectrum 600 sec. Preparation and analysis were carried out according to the standard of ASTM D 4927 - "Determination of the elemental composition of components of lubricants by X-ray fluorescent spectroscopy with dispersion by wavelength". Correlation and regression analysis was carried out by methods that were implemented in the most popular professional statistical software platforms "Statistica" and "SPSS" and their analysis in geological concepts. Findigs. To evaluate the central characteristics of the total content of metals in oil, the deposits considered more correctly use not the arithmetic mean, but the median. It is proved that the total content of metals in oil considered is associated with a reverse correlation connection with resin content, the values of the modern temperature of the productive horizon, the modern depth of productive horizon, the mineralization productive horizons; and direct correlation with the concentrations of nickel, manganese, mercury, chromium, vanadium, aluminum, cobalt, zinc, iron, paraffin, asphalt, sulfur and oil viscos boiling and oil density. Scientific novelty. It consists in the development of the natural classification of oil deposits by the overall content of metals, and to establish a connection of this indicator with the concentration of individual elements of impurities, the main components of oil and the main geological and technological indicators of deposits of the Dnipro-Donetsk depression. Practical significance. Is to establish the concentrations and the possibility of forecasting the total content of metals in the Dnipro-Donetsk depression, which in turn provides the opportunity to solve the topical problems of practical direction. The solution of a number of industrial-raw materials based on the assessment of oil as an ore raw material, since the content of some elements in them sometimes exceeds ore concentrations, so there is a possibility of their concomitant industrial removal from by-products during processing processes. The solution of technological issues, which are caused by the negative impact of some elements contained in oil, on the geological environment, production technologies and the equipment used in the course of their extraction and processing.
目的。建立第聂伯-顿涅茨克凹陷石油矿床中金属总含量的特点,并根据这一指标对矿床进行分类。方法。这项研究的事实基础是对第聂伯-顿涅茨克洼地36个矿床的石油中金属的分析结果。在x射线荧光分析的帮助下,对每个矿床至少30个油样的金属含量进行了调查。根据地球化学信息的最大完备性、在第聂伯-顿涅茨克凹陷不同油气区发现的矿床、不同的油系组成、不同的圈闭地质类型、不同的矿床构造和不同的采油年龄来选择矿床。在“SPRUT”SEF 01能量色散光谱仪上进行x射线荧光分析。根据ASTM D 4927 -“用波长色散的x射线荧光光谱法测定润滑油组分元素组成”的标准进行制备和分析。运用目前最流行的专业统计软件平台“Statistica”和“SPSS”对地质概念进行相关和回归分析。Findigs。为了评价石油中金属总含量的中心特征,被认为更正确的矿床不是使用算术平均值,而是使用中位数。结果表明:考虑油中金属总含量与树脂含量、产层现代温度值、产层现代深度值、矿化产层成反比关系;并与镍、锰、汞、铬、钒、铝、钴、锌、铁、石蜡、沥青、硫和油的粘度、沸点和油的密度直接相关。科学的新奇。它包括根据金属的总体含量对石油矿床进行自然分类,并将这一指标与杂质的单个元素、石油的主要成分以及第聂伯-顿涅茨克凹陷沉积物的主要地质和技术指标的浓度联系起来。现实意义。是建立第聂伯-顿涅茨克洼地金属的浓度和预测总含量的可能性,这反过来又为解决实际方向的专题问题提供了机会。一些工业原料的解决方案基于对石油作为矿石原料的评估,由于其中某些元素的含量有时超过矿石浓度,因此在加工过程中有可能从副产品中伴随工业去除它们。解决石油中含有的某些元素对地质环境、生产技术和开采加工过程中使用的设备所产生的负面影响所引起的技术问题。