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1.
The determination of trace element concentrations in oil shale before mining and retorting is required for proper solid-waste
management planning. Using routine Fischer assay oil yield data collected during resource characterization as indicators of
potential trace element concentrations could lead to a standard method of identifying strata containing high trace element
levels. In order to determine a correlation between trace element concentrations and oil yield, shale samples were selected
from four statigraphic zones of the Parachute Creek Member of the Green River Formation for analysis. All samples were analyzed
for total elemental concentrations, mineralogy, and Fischer assay oil yield. The results of these analyses demonstrated that
the Mahogany zone shales contain significantly greater trace element concentrations (antimony, arsenic, cadmium, chromium,
copper, lead, lithium, mercury, molybdenum, nickel, selenium, silver, and vanadium) than the other three shale zones. These
high trace element concentrations have been identified within well-defined interbedded tuff deposits in the Mahogany zone.
In addition, all trace elements evaluated, except boron, show either increasing or decreasing concentrations as oil yield
increases within all oil shale zones. With an increased number of analyses of existing oil shale cores, oil yield data will
be correlated to specific stratigraphic units containing high trace element concentrations. 相似文献
2.
页岩油气是当前全球油气勘探和研究的热点,但其潜力评价一直是难点。该文以中国和北美的四套典型页岩为例,包括北美湖相Green River组、内陆海相Niobrara组、中国环境来评价相龙马溪组和济阳坳陷湖相页岩,发现页岩沉积环境与其油气潜力具有密切关系,因此可通过分析发现这四套页岩的沉积环境都具有页岩沉积环境评价其页岩油气潜力。通过微量元素、生物标志化合物、扫描电镜、X-CT和X射线衍射等方法,发现这四套页岩都具有一定的还原性和较高的生产力,且具有差异性。内陆海相Niobrara组页岩具有弱还原的沉积环境,在四套页岩中有机碳含量较低,呈块状沉积构造,裂缝与微裂缝较少,储集空间相对有限。焦石坝海相龙马溪组页岩为还原的沉积环境,岩石以富含有机质的硅质岩为主,可观察到大量的大孔隙与少量的微裂缝。Green River页岩和济阳坳陷页岩形成于陆相咸化的强还原沉积环境,有机碳含量高,页岩以纹层状结构为主,岩石组成脆性矿物含量高,含有大量的裂缝。可见,具有强还原沉积环境的页岩通常具有较好的勘探前景。 相似文献
3.
M. E. Essington 《Environmental Geology》1992,19(2):83-89
Large volumes of solid waste material will be produced during the commercial production of shale oil. An alternative to the disposal of the solid waste product is utilization. One potential use of spent oil shale is for the stabilization of hazardous organic compounds. The objective of this study was to examine the adsorption of pyridine, commonly found in oil shale process water, by spent oil shale. The adsorption of pyridine by fresh and weathered samples of combusted New Albany Shale and Green River Formation oil shale was examined. In general, pyridine adsorption can be classified as L-type and the isotherms modeled with the Langmuir and Freundlich equations. For the combusted New Albany Shale, weathering reduced the predicted pyridine adsorption maximum and increased the amount of pyridine adsorbed at low solution concentrations. For the combusted Green River Formation oil shales, weathering increased the predicted pyridine adsorption maximum. The pyridine adsorption isotherms were similar to those produced for a combusted Australian oil shale. Although adsorption can be mathematically described by empirical models, the reduction in solution concentrations of pyridine was generally less than 10 mg/l at an initial concentration of 100 mg/l. Clearly, the observed reduction in solution pyridine concentrations does not sufficiently justify using spent oil shale as a stabilizing medium. However, data in the literature suggest that other organic compounds can be effectively removed from solution by spent oil shale and that adsorption is dependent on process conditions and organic compound type. 相似文献
4.
Investigation of the reaction of Green River oil shale kerogen with sodium borohydride in trifluoroacetic acid by infrared spectroscopy has shown the appearance of absorptions representative of lactams. These lactams can be shown to have possible precursors that are heteroaromatic in composition and as such could demonstrate the existence in Green River kerogen of aromatic nitrogen compounds. 相似文献
5.
Xiugen Fu Jian Wang Yuhong Zeng Fuwen Tan Xinglei Feng 《Environmental Earth Sciences》2013,70(3):1125-1134
The Shengli River–Changshe Mountain oil shale zone represents a potentially large marine oil shale resource in China. With the aim of better understanding the geochemistry of trace elements in marine oil shale and its combustion residues, 40 raw samples, 27 oil shale combustion residues and 29 selected minerals from Changliang Mountain oil shale are studied for geochemical analyses. The contents of Se, Cd, Mo, As, Cs, Pb, Sr and U in the oil shale samples are enriched from 1.47 to 33.91 times as compared with the Clarke values, whereas the concentrations of other elements are slightly higher/lower than the respective worldwide means. The most enriched elements in oil shale combustion residues are Se, Cd, Mo, As and U with enrichment values from 4.78 to 50.92. Trace elements with high volatile behaviour such as As, Co, Ni, Sc, Sn and V occur predominantly in organic matter and/or sulphides. Other non-volatile or slightly volatile trace elements (e.g., Be, Bi, Cs, Cu, Ga, Hf, Li, Nb, Rb, Ta, Th, W, Zr and REEs) may occur mainly in original and relatively refractory minerals in raw oil shale. The potentially hazardous trace elements in Changliang Mountain oil shale include As, Cd, Mo and Se. Arsenic and Se are controlled mainly by Fe-bearing minerals (probably pyrite) in Changliang Mountain oil shale. Cadmium is present mainly in dolomite, while Mo occurs mainly in organic matter. 相似文献
6.
A.K. Burnham J.E. Clarkson M.F. Singleton C.M. Wong R.W. Crawford 《Geochimica et cosmochimica acta》1982,46(7):1243-1251
Isoprenoid and other carbon skeletons that are formed in living organisms and preserved essentially intact in ancient sediments are often called biological markers. The purpose of this paper is to develop improved methods of using isoprenoid hydrocarbons to relate petroleum or shale oil to its source rock. It is demonstrated that most, but not all, of the isoprenoid hydrocarbon structures are chemically bonded in kerogen (or to minerals) in Green River oil shale. The rate constant for thermally producing isoprenoid, cyclic, and aromatic hydrocarbons is substantially greater than for the bulk of shale oil. This may be related to the substantial quantity of CO2 which is evolved coincident with the isoprenoid hydrocarbons but prior to substantial oil evolution. Although formation of isoprenoid alkenes is enhanced by rapid heating and high pyrolysis temperatures, the ratio of isoprenoid alkenes plus alkanes to normal alkenes plus alkanes is independent of heating rate. High-temperature laboratory pyrolysis experiments can thus be used to predict the distribution of aliphatic hydrocarbons in low temperature processes such as in situ shale oil production and perhaps petroleum formation. Finally, we demonstrate that significant variation in biological marker ratios occurs as a function of stratigraphy in the Green River formation. This information, combined with methods for measuring process yield from oil composition, enables one to relate time-dependent processing conditions to the corresponding time-dependent oil yield in a vertical modified-in situ retort even if there is a substantial and previously undetermined delay in drainage of shale oil from the retort. 相似文献
7.
8.
抚顺西舍场油页岩的淋滤行为及其对周围水体的影响 总被引:1,自引:0,他引:1
为研究抚顺市区南部地表堆积的油页岩中微量元素的淋滤作用对水体的影响,本文分别进行了抚顺西露天矿采场和西舍场油页岩pH为4.0、6.5和8.0的动态淋滤实验,以ICP-MS测试了淋滤液及水体中的微量元素。结果表明,高、低品位油页岩中Cu、Zn、Pb、Ni、Rb、Bi、Ba、Ti、Co、Cr、Cu和Mn等淋出率较高;水体中Pb、Cd、Co、Cr、Ni、Zn、Mn等元素超标,表明抚顺西舍场油页岩的堆积已对周围地表水体和地下水体造成了污染。 相似文献
9.
桦甸盆地桦甸组与美国犹他盆地绿河组油页岩生物标志化合物特征对比 总被引:2,自引:0,他引:2
在野外地质考察、岩心观察和大量测试数据分析的基础上,对我国东北地区桦甸盆地始新统桦甸组和美国犹他盆地始新统绿河组油页岩中类异戊二烯烷烃、甾类和萜类等生物标志化合物特征进行了详细的对比研究,并探讨其对两地油页岩在有机质来源及古沉积环境上的差异指示意义。结果表明:在GC谱图上,桦甸油页岩Pr/Ph为1.47~2.03,具姥鲛烷优势;而绿河油页岩Pr/Ph为0.34~0.44,具植烷优势。GC-MS分析表明:桦甸油页岩规则甾烷C27-C28-C29呈反"L"型分布,∑(C27+C28)/∑C29为0.63~2.52;绿河油页岩规则甾烷C27-C28-C29呈钝角不对称"V"型分布,∑(C27+C28)/∑C29为0.96~1.20。桦甸油页岩萜类化合物中萜烯>ββ构型霍烷>αβ构型霍烷,以C29萜烯占优势;绿河油页岩中五环三萜烷>三环萜烷>四环萜烷,并检出丰富的γ-蜡烷和β-胡萝卜烷。两地油页岩生物标志化合物特征参数的对比分析揭示:桦甸油页岩为水生生物和高等植物双重生源,但细菌及藻类等水生生物的贡献较大,主要形成于弱还原淡水沉积环境;绿河油页岩有机质来源主要为细菌和藻类等水生生物,主要形成于强还原咸水沉积环境。 相似文献
10.
The determination of trace element release from geologic materials, such as oil shale and coal overburden, is important for
proper solid waste management planning. The objective of this study was to determine a correlation between trace element residency
and concentration to trace element release using the following methods: (1) sequential selective dissolution for determining
trace element residencies, (2) toxicity characteristic leaching procedure (TCLP), and (3) humidity cell weathering study simulating
maximum trace element release. Two eastern oil shales were used, a New albany shale that contains 4.6 percent pyrite, and
a Chattanooga shale that contains 1.5 percent pyrite. Each shale was analyzed for elemental concentrations by soluble, adsorbed,
organic, carbonate, and sulfide phases. All leachates were analyzed to determine total trace element concentrations.
The results of the selective dissolution studies show that each trace element has a unique distribution between the various
phases. Thus, it is possible to predict trace element release based on trace element residency. The TCLP results show that
this method is suitable for assessing soluble trace element release but does not realistically assess potential hazards. The
results of the humidity cell studies do demonstrate a more reasonable method for predicting trace element release and potential
water quality hazards. The humidity cell methods, however, require months to obtain the required data with a large number
of analytical measurements. When the selective dissolution data are compared to the trace element concentrations in the TCLP
and humidity cell leachates, it is shown that leachate concentrations are predicted by the selective dissolution data. Therefore,
selective dissolution may represent a rapid method to assess trace element release associated with acid mine drainage. 相似文献
11.
油页岩成矿期的古环境控制着油页岩有机质类型与丰度,而油页岩的有机质类型和丰度对于研究油页岩成因及富集规律具有重要的意义.松辽盆地南部含油页岩层段总体为深湖-半深湖相稳定沉积,微量元素特征对古环境的变化敏感,可利用油页岩微量元素含量的测试及其比值分析的方法恢复油页岩成矿期的古环境.通过对松辽盆地南部油页岩样品中20余种微量元素含量的测试及其比值的分析,恢复了青山口组与嫩江组油页岩成矿期的古环境.研究结果表明,油页岩成矿期的古气候为温暖湿润-半湿润半干热的气候,水介质为微咸水-半咸水的还原环境.青山口期相对嫩江期气候和盐度变化较稳定,气候略为干热,盐度也略高. 相似文献
12.
B.R.T. Simoneit L.A. Clews C.D. Watts J.R. Maxwell 《Geochimica et cosmochimica acta》1975,39(8):1143-1145
Gas chromatographic analysis of the major isoprenoid carboxylic acids and the major ketone (6,10,14-trimethylpentadecan-2-one), derived from successive chromic acid oxidations of the kerogen of Green River Formation oil shale, indicates that their stereochemistry is compatible with the hypothesis that phytol or a derivative with the same carbon skeleton and stereochemistry was incorporated into the kerogen matrix. 相似文献
13.
羌塘盆地胜利河油页岩有机地球化学特征及意义 总被引:2,自引:0,他引:2
通过对藏北羌塘盆地胜利河地区2008年新发现的油页岩剖面进行系统采样和GC—MS分析,结果显示该地区油页岩具有较高C29ααα20S/ααα(20S+20R)(0.38~0.44)、C29αββ/(ααα+αββ)(0.37~0.47)和C3122S/(22S+22R)(0.52~0.59)比值,表明其有机质已进入生油阶段。分析的油页岩样品具有较高的C27甾烷含量(32.82%~43.6%)和较高4 甲基甾烷/规则甾烷(0.04~0.22)、甾/藿(0.80~1.04)比值,显示浮游植物为主的生物母源对油页岩的贡献。此外,油页岩具有较高的γ 蜡烷指数(0.34~0.50)、C35升藿烷指数(0.076~0.102)和较低的Pr/Ph比值(0.32~0.49),表明胜利河地区油页岩沉积期水体处于相对闭塞还原和盐度较高的沉积环境。 相似文献
14.
M. E. Essington 《Environmental Geology》1989,13(1):59-66
A laboratory study was conducted to evaluate the influence of hydration and recarbonation on the solidphase distribution of trace elements in retorted oil shale. The oil shale samples were retorted by the Paraho direct heating process and equilibrated with deionized—distilled water under controlled carbon dioxide conditions. A sequential extraction technique was then used to fractionate trace elements into soluble, KNO3-extractable (easily exchangeable), H2O-extractable (easily adsorbed), NaOh-extractable (organic), EDTA-extractable (carbonate), HNO3-extractable (sulfide), and residual (nonextractable silicate) phases. The chemical fractions present in retorted oil shale and hydrated and recarbonated retorted oil shale were compared to identify trace element mineralogical changes that may occur in retorted oil shale disposal environments.Trace elements examined in this study were found to reside predominantly in the HNO3-extractable and residual fractions. Hydration of retorted oil shale resulted in a shift in the majority of trace elements from residual to extractable forms. Cobalt, nickel, and zinc extractabilities were not significantly influenced by hydration, whereas antimony increased in the residual fraction. Subjecting retorted oil shale to atmospheric (0.033%) and 10% CO2(g) levels over a nine-month equilibration period resulted in partial and full recarbonation, respectively. As the influence of recarbonation increased, trace elements reverted to residual forms. Vanadium, choromium, copper, zinc, antimony, and molybdenum in the 10% CO2(g) recarbonated material were more resistant to sequential extraction than in retorted oil shale, whereas strontium, barium, and manganese were less resistant to sequential extraction. The extractabilities of cobalt, nickel, and lead were not affected by recarbonation. Recarbonation did not result in a predicted increase in EDTA-extractable trace elements. In general, the amounts of trace elements extracted by EDTA (and correlated to carbonate forms) were invariant with respect to equilibrium CO2(g) levels.A significant result of this study was that the mineralogical residencies of trace elements in retorted oil shale were altered in response to conditions that may be present in a disposal environment. Thus, the long-term release of trace elements in retorted oil shale disposal environments may not be adequately predicted by applying the toxicity characteristic leaching procedure (TCLP). 相似文献
15.
陆相盆地地层单元在沉积过程中往往呈现一定的规律性,主要显示为地层单元的沉积相(岩相)组合、沉积建造、地层叠加样式和古生物群的渐进演化,对应着煤、油页岩和蒸发盐等经济矿产的潜在沉积。利用含煤、油页岩和蒸发盐特征性地层单元区分辽宁抚顺盆地、河南桐柏盆地和美国绿河盆地充填演化过程中不同地层单元的差异和潜在经济矿产的沉积,并且这些地层单元的沉积演化受气候和构造的联合控制。气候和构造控制了进入盆地中沉积物与水体供给速率以及盆地潜在可容纳空间的变化,造成盆地充填在过补偿、平衡补偿和欠补偿状态之间演化,引起地层单元岩性组合、沉积建造和古生物群的改变,能够合理解释煤、油页岩和蒸发盐的沉积。此外,不同类型盆地中气候和构造条件的差异也可能引起煤、油页岩或者蒸发盐的缺失。 相似文献
16.
藏北羌塘盆地胜利河油页岩干酪根特征及碳同位素指示意义 总被引:1,自引:0,他引:1
胜利河油页岩位于北羌塘盆地南部, 走向长超过34 km, 宽9 km。笔者对该油页岩各岩系干酪根进行了分离、镜鉴、元素分析和碳同位素分析, 结果表明, 该油页岩干酪根为Ⅱ型干酪根, 油页岩中干酪根含量较高, 介于15.79%~20.37%, 具有富氢少氧的特征, 其H/C和O/C比率分别为1.11~1.19和0.08~0.25, 为胜利河地区非常好的烃源岩。油页岩层干酪根13C相对富集, 具有相对较高的δ13CPDB值(-20.79‰~ -21.78‰), 与胜利河地区油页岩母源为较单一的藻类有关。藻类的大量繁殖造成了该类生物死亡埋藏速率远大于氧化速率, 在还原环境下大部分藻类还未被氧化就被埋藏, 从而保留了原始藻类略富13C的特征。胜利河油页岩的空间展布以及规模明显受古泻湖环境的控制。 相似文献
17.
吉林省桦甸油页岩中稀土元素和微量元素的研究 总被引:5,自引:0,他引:5
对桦甸油页岩及其灰渣的矿物成分、主量元素、稀土元素和微量元素含量进行测定。结果表明:油页岩中稀土元素含量低于北美页岩(NASC)中的平均含量,REE球粒陨石标准化的分布模式曲线表现为负斜率,(La/Yb)N的平均值大于1,属于轻稀土富集型;REE北美页岩标准化的分布模式曲线较平缓,(La/Yb)S的平均值接近于1,轻重稀土分馏不明显。与球粒陨石和北美页岩相比,Eu有较严重的正异常。油页岩中的微量元素与北美页岩和地壳的平均值相比较,Sb、Nb、Cs、Zn、Bi、W等元素具有较高的富集度。油页岩灰渣中稀土元素和微量元素富集度均高于油页岩。 相似文献
18.
A model for the pathway of some trace elements during fluidized-bed combustion of israeli oil shale is suggested, based both
on pilot plant and laboratory tests. This model demonstrates the role of carbonate matrix in suppressing the volatilization
of trace elements due to fixation of most elements in new-formed silicates. The quality of leachates derived from oil shale
combustion wastes can be predicted on the basis of the proposed model. 相似文献
19.
【研究目的】本文旨在通过对比准噶尔盆地吉木萨尔地区二叠系芦草沟组高品位和低品位油页岩的品质和成因差异,揭示高品位油页岩的特殊成矿条件。【研究方法】对吉木萨尔地区两个剖面采集的露头样品,进行TOC、热解、含油率、微量、稀土元素测试,从而开展高品位和低品位油页岩有机地球化学特征,微量稀土元素特征及成矿条件差异分析。【研究结果】研究区高品位油页岩有机质类型为I型;低品位油页岩有机质类型为I-II1型。高品位和低品位油页岩中B、Ba、Cr、Nb、Sr、V、Zr等微量元素含量差异明显,高品位油页岩中各稀土元素平均含量和各样品稀土元素分布区间都小于低品位油页岩,且外源元素富集程度也相对更低,显示了更少的陆源碎屑输入。微量元素比值显示,研究区油页岩形成于温暖湿润气候,淡水—半咸水,还原环境。高品位油页岩与低品位油页岩相比,形成时水体盐度值更大,有机质生产力更高。【结论】温暖湿润气候背景下,相对较少的陆源碎屑供给,减少了对有机质的稀释和氧化破坏,同时较高的水体盐度值更利于水体分层,从而形成一个长时间的还原环境,再加上更高的有机质生产力,从而形成了高品位油页岩。 相似文献
20.
Geochemistry and origin of rare earth elements (REEs) in the Shengli River oil shale, northern Tibet, China 总被引:4,自引:0,他引:4
Xiugen Fu Jian Wang Yuhong Zeng Fuwen Tan Jianglin He 《Chemie der Erde / Geochemistry》2011,(1):21-30
The Shengli River-Changshe Mountain oil shale zone, located in the North Qiangtang depression, northern Tibet plateau, represents a potentially large marine oil shale resource in China. Twenty-eight samples including oil shale, micritic limestone and marl were collected from the Shengli River area to determine the contents and distribution patterns of rare earth elements (REEs) in marine oil shale. Oil shale samples from the Shengli River area have high ash yield (61.86–67.48%) and TOC content (8.02–13.67%) with low total sulfur (St,d) content (0.76–1.39%) and intermediate shale oil content (3.60–16.30%). The total rare earth element (ΣREE) content in oil shale samples is notably depleted (46.79–67.90 μg/g), approximately one third of the mean value of the North American Shale Composite (NASC), and lower than that of world-wide black shales and Chinese coals, but higher than that of world-wide coals and micritic limestone samples (29.21 μg/g) from the Shengli River area. The oil shale samples from the Shengli River area exhibit shale-like Chondrite or NASC-normalized REE patterns similar to those of micritic limestone and marl samples from this area, indicating that REEs of these different lithological samples may have been derived from a similar terrigenous source.REE contents of oil shale samples are highly positive correlated with ash yield and show a positive correlation with Fe and a weakly positive correlation with organic sulfur, and the vertical variations of REEs mainly follow those of Si, Al, K and Ti. All these facts indicate that the REE contents in oil shale seams are mainly controlled by clay minerals and, to a lesser extent, by pyrite, as well as partly associated with oil shale organic constituents. Rare earth elements in the Shengli River oil shale have originated from two sources: a felsic volcanic rock source and a clastic or/and limestone source. 相似文献