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Heavy Metal Levels and Ecological Risk in Crude Oil-Contaminated Soils from Okpare-Olomu, Niger Delta, Nigeria
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作者 Adedoyin Olubunmi Bankole Akinyemi Olufemi Ogunkeyede +5 位作者 Harrison Agboro Prince Alex Ekhorutomwen Osasenaga Israel Otuomagie Khadijah Ateda Isimekhai Ekaette Akpan Fadairo Efe Jeffery Isukuru 《Journal of Environmental Protection》 2024年第4期415-438,共24页
Crude oil spills have inflicted extensive disruption upon the Niger Delta ecosystem, resulting in crop loss and severe environmental damage. Such spills exacerbate heavy metal concentration within soil due to the pres... Crude oil spills have inflicted extensive disruption upon the Niger Delta ecosystem, resulting in crop loss and severe environmental damage. Such spills exacerbate heavy metal concentration within soil due to the presence of metallic ions. The Okpare-Olomu community has borne the brunt of crude oil pollution from illicit bunkering, sabotage, and equipment malfunction. This study targets an evaluation of ecological hazards linked to heavy metals (HMs) in crude oil impacted agriculturally soils within Okpare-Olomu in Ughelli South LGA of Delta State. In this study, 24 topsoil samples were obtained from areas affected by crude oil pollution;the heavy metal content was evaluated through atomic absorption spectrometry. The concentration ranges for HMs (mg/kg) in soil were: 24.1 - 23,174 (Cu);0.54 - 37.1 (Cd);9.05 - 54 (Cr);12 - 174 (Ni);18.5 - 8611 (Pb);and 148 - 9078 (Zn) at a soil depth of 0 - 15 cm. Notably, metal concentrations were recorded to be above permissible World Health Organization limits. Predominantly, Zn and Pb recorded higher heavy metal concentration when compared to other heavy metals analysed, notably at sampling points PT7 through PT24. Zinc and Pb contamination exhibited highly significant contamination factors, and contamination severity was evidenced across all sample points, signifying a grave risk level. Pollution load indices indicated pervasive extreme pollution levels. Geoaccumulation indices signaled moderate to strong pollution, mainly by Pb and Zn. Ecological risk assessments revealed variable levels of heavy metal contamination, from low to very high, with potential ecological risk reflecting markedly elevated levels. This study underscores the imperative for soil remediation to rectify ecological imbalances in agriculturally affected soil constituents. 展开更多
关键词 heavy Metals crude oil POLLUTION Degree of Contamination Potential Risk Index
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Molecular composition of naphthenic acids in a Chinese heavy crude oil and their impacts on oil viscosity 被引量:1
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作者 Qian-Hui Zhao Shuai M +7 位作者 Jian-Xun Wu Wei-Feng Chang Sheng-Fei Zhang Xin-Ge Sun Bing Zhou Zeng-Min Lun Keng H.Chung Quan Shi 《Petroleum Science》 SCIE EI CAS CSCD 2023年第2期1225-1230,共6页
Most heavy crude oils underwent biodegradation and generated a significant amount of naphthenic acids. Naphthenic acids are polar compounds with the carboxylic group and are considered as a major factor affecting the ... Most heavy crude oils underwent biodegradation and generated a significant amount of naphthenic acids. Naphthenic acids are polar compounds with the carboxylic group and are considered as a major factor affecting the oil viscosity. However, the relationship between the molecular composition of naphthenic acids and oil viscosity is not well understood. This study examined a “clean” heavy oil with low contents of heteroatoms but had a high content of naphthenic acids. Naphthenic acids were fractionated by distillation and caustic extraction. The molecular composition was characterized by high-resolution Orbitrap mass spectrometry. It was found that the 2- and 3-ring naphthenic monoacids with 15–35 carbon atoms are dominant components of the acid fractions;the caustic extraction is capable of isolating naphthenic acids with less than 35 carbons, which is equivalent to the upper limit of the distillable components, but not those in the residue fraction;the total acid number of the heavy distillates is higher than that of the residue fraction;the viscosity of the distillation fraction increases exponentially with an increased boiling point of the distillates. Blending experiments indicates that there is a strong correlation between the oil viscosity and acids content, although the acid content is only a few percent of the total oil. 展开更多
关键词 heavy crude oil VISCOSITY High-resolution mass spectrometer Naphthenic acid
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Enhancing Heavy Crude Oil Flow in Pipelines through Heating-Induced Viscosity Reduction in the Petroleum Industry
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作者 Ramzy S.Hamied Anwar N.Mohammed Ali Khalid A.Sukkar 《Fluid Dynamics & Materials Processing》 EI 2023年第8期2027-2039,共13页
The process of transporting crude oil across pipelines is one of the most critical aspects of the midstream petroleum industry.In the present experimental work,the effect of temperature,pressure drop,and pipe diameter... The process of transporting crude oil across pipelines is one of the most critical aspects of the midstream petroleum industry.In the present experimental work,the effect of temperature,pressure drop,and pipe diameter on the flow rate of heavy crude oil have been assessed.Moreover,the total discharge and energy losses have been evaluated in order to demonstrate the improvements potentially achievable by using solar heating method replacing pipe,and adjusting the value of the initial pressure difference.Crude oil of API=20 has been used for the experiments,with the studied pipelines sections connecting the separator unit to the storage tank operating at a temperature of 25℃-100℃,pressure drop of 3,4,5,and 6 kg/cm^(2),and with pipe diameter of 4,6,and 8 in.The results show that on increasing the temperature and/or the pressure drop,the flow rate through the pipeline becomes higher,thus raising the total pumping energy(as the pipe diameter increase),while energy losses increase from the last separator to the storage tank in the field.A pipe diameter increase can also produce a growth of the total pumping energy(i.e.,energy losses increase).The results of the present analysis suggest that employing an optimal temperature(50℃)is needed to ensure good performance. 展开更多
关键词 Petroleum industry heavy crude oil horizontal flow viscosity reduction
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Effects of Different Heavy Crude Oil Fractions on the Stability of Oil-in-water Emulsions —— Isolation of functional fractions from heavy crude oil and study of their properties 被引量:5
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作者 范维玉 宋远明 +3 位作者 南国枝 赵福麟 肖建洪 李水平 《Petroleum Science》 SCIE CAS CSCD 2004年第3期66-71,共6页
The functional fractions (acid, basic, amphoteric and neutral fractions) are isolated from the Liaohe Du-84 heavy crude oil and Shengli Gudao Kenxi heavy crude oil by ion-exchange chromatography, but the conventional... The functional fractions (acid, basic, amphoteric and neutral fractions) are isolated from the Liaohe Du-84 heavy crude oil and Shengli Gudao Kenxi heavy crude oil by ion-exchange chromatography, but the conventional fractions (saturates, aromatics, resins and asphaltenes) are also isolated from the heavy crude oil. These components have been characterized by spectroscopic methods (FT-IR), namely acid number, basic nitrogen number, ultimate analysis and molecular weight measurements using vapor pressure osmometry (VPO). The ion-exchange chromatography method based on separation by a functional group induces a little change on the nature of the crudes and reasonable mass balances can be easily obtained. 展开更多
关键词 heavy crude oil components oil in water emulsion
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Emulsification of Indian heavy crude oil using a novel surfactant for pipeline transportation 被引量:5
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作者 Shailesh Kumar Vikas Mahto 《Petroleum Science》 SCIE CAS CSCD 2017年第2期372-382,共11页
The most economical way to overcome flow assurance problems associated with transportation of heavy crude oil through offshore pipelines is by emulsifying it with water in the presence of a suitable surfactant.In this... The most economical way to overcome flow assurance problems associated with transportation of heavy crude oil through offshore pipelines is by emulsifying it with water in the presence of a suitable surfactant.In this research,a novel surfactant,tri-triethanolamine monosunflower ester,was synthesized in the laboratory by extracting fatty acids present in sunflower(Helianthus annuus)oil.Synthesized surfactant was used to prepare oil-in-water emulsions of a heavy crude oil from the western oil field of India.After emulsification,a dramatic decrease in pour point as well as viscosity was observed.All the prepared emulsions were found to be flowing even at 1°C.The emulsion developed with 60%oil content and 2wt%surfactant showed a decrease in viscosity of 96%.The stability of the emulsion was investigated at different temperatures,and it was found to be highly stable.The effectiveness of surfactant in emulsifying the heavy oil in water was investigated by measuring the equilibrium interfacial tension(IFT)between the crude oil(diluted)and the aqueous phase along with zeta potential of emulsions.2wt%surfactant decreased IFT by almost nine times that of no surfactant.These results suggested that the synthesized surfactant may be used to prepare a stable oil-in-water emulsion for its transportation through offshore pipelines efficiently. 展开更多
关键词 heavy crude oil oil-in-water emulsion Pipeline transportation Sunflower oil RHEOLOGY STABILITY
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Experimental investigation of the effects of various parameters on viscosity reduction of heavy crude by oil-water emulsion 被引量:3
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作者 Talal Al-Wahaibi Yahya Al-Wahaibi +2 位作者 Abdul-Aziz R.Al-Hashmi Farouq S.Mjalli Safiya Al-Hatmi 《Petroleum Science》 SCIE CAS CSCD 2015年第1期170-176,共7页
The effects of water content, shear rate, temperature, and solid particle concentration on viscosity reduction (VR) caused by forming stable emulsions were investigated using Omani heavy crude oil. The viscosity of ... The effects of water content, shear rate, temperature, and solid particle concentration on viscosity reduction (VR) caused by forming stable emulsions were investigated using Omani heavy crude oil. The viscosity of the crude oil was initially measured with respect to shear rates at different temperatures from 20 to 70℃. The crude oil exhibited a shear thinning behavior at all the temperatures. The strongest shear thinning was observed at 20℃. A non-ionic water soluble surfactant (Triton X-100) was used to form and stabilize crude oil emulsions. The emulsification process has significantly reduced the crude oil viscosity. The degree of VR was found to increase with an increase in water content and reach its maximum value at 50 % water content. The phase inversion from oil- oil emulsion occurred at 30 in-water emulsion to water-in- % water content. The results indicated that the VR was inversely proportional to temperature and concentration of silica nanoparticles. For water-in-oil emulsions, VR increased with shear rate and eventually reached a plateau at a shear rate of around 350 s^-1. This was attributed to the thinning behavior of the continuous phase. The VR of oil-in-water emulsions remained almost constant as the shear rate increased due to the Newtonian behavior of water, the continuous phase. 展开更多
关键词 Viscosity reduction Phase inversion Non-newtonian fluid oil-in-water emulsions heavy crude oil
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Upgrading of Heavy Crude Oil with W-Zr Catalyst 被引量:1
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作者 P. Schacht L. Díaz-García +1 位作者 J. Aguilar S. Ramírez 《Advances in Chemical Engineering and Science》 2014年第2期250-257,共8页
The main problem of new crude oil reserves is the incipient increase of heavy crude oils in the American continent, i.e. USA, Mexico, Canada and Venezuela. These types of crude oils require several treatments before r... The main problem of new crude oil reserves is the incipient increase of heavy crude oils in the American continent, i.e. USA, Mexico, Canada and Venezuela. These types of crude oils require several treatments before refining. One of these treatments can be hydrocracking. In this petroleum refining process, it is possible to modify the heavy crude oils to light crude oils. In this paper, we try to use hydrocracking to improve the quality of raw heavy crude oil, through some chemical transformations C-H binding rupture using a catalyst containing active metals such as tungsten and zirconium (W-Zr). After the crude oil was hydrocracked in presence of this novel bimetallic catalyst, the hydrocracked products showed lower content of asphaltenes, resins, sulfur and nitrogen. Also positive changes in the viscosity of crude oil measured as a decreasing of this value were observed. The American Petroleum Institute (API) gravity was significantly increased 6 units. Consequently, all these changes confirmed that the upgrading of the heavy crude oil was successful. 展开更多
关键词 heavy crude oil UPGRADING Tungsten-Zirconium CATALYST
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Processing and Utilization of Naphthenic Base Heavy Crude Oil(continued)
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作者 Wang Xianqing and Men Cungui(Bureau of Oil Refining and Cheriucals,CNPC) 《China Oil & Gas》 CAS 1995年第3期52-54,共3页
ProcessingandUtilizationofNaphthenicBaseHeavyCrudeOil(continued)¥WangXianqingandMenCungui(BureauofOilRefinin... ProcessingandUtilizationofNaphthenicBaseHeavyCrudeOil(continued)¥WangXianqingandMenCungui(BureauofOilRefiningandCheriucals,CN... 展开更多
关键词 heavy crude oil Naphthenic BASE crude PROCESSING UTILIZATION
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Processing and Utilization of Naphthenic Base Heavy Crude Oil
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作者 Wang Xianqing and Men Cungui(Bureau of Oil Refining and Chemicals, CNPC) 《China Oil & Gas》 CAS 1995年第2期46-49,共4页
ProcessingandUtilizationofNaphthenicBaseHeavyCrudeOil¥WangXianqingandMenCungui(BureauofOilRefiningandChemica... ProcessingandUtilizationofNaphthenicBaseHeavyCrudeOil¥WangXianqingandMenCungui(BureauofOilRefiningandChemicals,CNPC)Keywords:... 展开更多
关键词 heavy crude oil NAPHTHENE base crude PROCESSING UTILIZATION
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NMR Imaging of Heavy Crude Oil for Softening Detection under Pleat Treatment
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作者 Morozov Evgeny V. Martyanov Oleg N. +1 位作者 Volkov Nikita V Falaleev Oleg V. 《材料科学与工程(中英文A版)》 2011年第4X期545-551,共7页
关键词 核磁共振成像 重质原油 软化 检测 不均匀性 成像技术 自旋回波 动态行为
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Gathering and Transportation Technology of Heavy Oil in Liaohe Oilfield
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作者 Luo Jingyi and Li Mingyi(Survey & Design Research Institute ,Liaohe Petroleum Exploration Bureau. ) 《China Oil & Gas》 CAS 1995年第4期30-32,共3页
GatheringandTransportationTechnologyofHeavyOilinLiaoheOilfield¥LuoJingyiandLiMingyi(Survey&DesignResearchIns... GatheringandTransportationTechnologyofHeavyOilinLiaoheOilfield¥LuoJingyiandLiMingyi(Survey&DesignResearchInstitute,LiaohePetr... 展开更多
关键词 heavy crude oil Producing GATHERING process VISCOSITY reducing Thinner
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Logging response characteristics and formation process of flushed zone in the Orinoco heavy oil belt, Venezuela
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作者 CHEN Heping CHEN Hao +5 位作者 LI Changwen WANG Yusheng LI Jianping HUANG Rui TIAN Congcong HOU Qiuyuan 《Petroleum Exploration and Development》 2020年第3期585-593,共9页
The origins and logging responses of flushed zones in some blocks of Orinoco heavy oil belt, Venezuela are still unclear. To solve this issue, we examined the conventional logging, nuclear magnetic resonance logging, ... The origins and logging responses of flushed zones in some blocks of Orinoco heavy oil belt, Venezuela are still unclear. To solve this issue, we examined the conventional logging, nuclear magnetic resonance logging, fluid viscosity, core analysis and oil field production data comprehensively to find out the logging responses and origins of the flushed zones. The results show that the main reason for the formation of flushed zone is surface water invasion, which leads to crude oil densification. The crude oil densification produces asphalt membrane(asphalt crust) which wraps up free water, causing special logging responses of the flushed zones. According to the different logging responses, we classified the flushed zones into two types and analyzed the formation processes of the two types of flushed zones. According to the characteristics of logging curves after water flush, we confirmed that the water flush began earlier than the reservoir accumulation. 展开更多
关键词 flushed zone asphalt crust crude oil thickening freshwater leaching foam oil flow Orinoco heavy oil belt
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扶余油田外围区块生物胶降黏压裂技术试验
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作者 何增军 宋成立 +3 位作者 马胜军 王凤宇 王永忠 陈存玉 《中外能源》 CAS 2024年第3期57-61,共5页
扶余油田外围区块原油密度大、黏度高、凝固点高、含蜡量高,采用常规胍胶携砂压裂技术无法有效开采,压裂投产后初期产量较低,达不到效益产能,外围区块基本处于未开发动用状态。为此,研发了生物胶降黏剂体系与压裂工程技术相配套的降黏... 扶余油田外围区块原油密度大、黏度高、凝固点高、含蜡量高,采用常规胍胶携砂压裂技术无法有效开采,压裂投产后初期产量较低,达不到效益产能,外围区块基本处于未开发动用状态。为此,研发了生物胶降黏剂体系与压裂工程技术相配套的降黏压裂技术,并进行了实验评价。评价结果显示,该生物胶具有降凝、降黏、防蜡、乳化、驱油等性能,可显著提高原油流动性。现场试验分为生物胶降黏加砂压裂和生物胶降黏不加砂压裂两种技术方式,共在扶余外围及稠油区块累计实施45口井。前置液胍胶造主裂缝+支撑剂+生物胶降黏剂+支撑剂+后置液降黏剂的技术方法应用在新投产的外围及稠油区块,对比老区内部,在储层物性变差的条件下,投产后产油量超设计产能1.6倍,是老区内部的1.4倍。生物胶降黏不加砂压裂技术主要应用在老井二次压裂或多轮次压裂稠油区块或黏度上升井层,同等条件下对比,黏度由压裂前的70mPa·s下降到25mPa·s,增产量是同区块常规压裂的1.3倍。 展开更多
关键词 生物胶 降黏压裂 原油流动性 防蜡 外围区块 稠油
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原油与柴油泄露影响海洋飞沫气溶胶中重金属与多环芳烃分布的实验室模拟研究
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作者 祁璇 朱晓婧 +4 位作者 高倩倩 王启煌 潘泽真 王梓萌 王笑非 《复旦学报(自然科学版)》 CAS CSCD 北大核心 2024年第1期122-133,I0002,共13页
海洋泄漏原油中的重金属和多环芳烃等污染物会因为破碎波进入到海洋飞沫气溶胶中,造成更大范围的环境生态风险,而目前其具体机制和影响因素尚未充分探究。本研究以从长庆油田、新疆油田和渤海油田采集的原油以及中国石化的成品油为研究... 海洋泄漏原油中的重金属和多环芳烃等污染物会因为破碎波进入到海洋飞沫气溶胶中,造成更大范围的环境生态风险,而目前其具体机制和影响因素尚未充分探究。本研究以从长庆油田、新疆油田和渤海油田采集的原油以及中国石化的成品油为研究对象,设计了一套模拟产生海洋飞沫气溶胶的实验室装置,模拟了海洋表面浪花裹挟原油后再释放到大气的过程,并进行海洋飞沫气溶胶的粒径分布、多环芳烃和重金属的浓度及富集因子(EF)分析。研究发现,轻质油中的部分低分子量多环芳烃更易于从覆油海面迁移到海洋飞沫气溶胶中并发生富集(EF≥10);尽管油品本底值中的重金属浓度很低,但无论是柴油泄漏还是原油泄漏,重金属均会富集到在海洋飞沫气溶胶中,且浓度水平与多环芳烃相差较小,在300~1800μg/m^(3);油膜厚度对海洋飞沫气溶胶中的重金属有十分显著的影响,随着油膜厚度的降低,海洋飞沫气溶胶中的重金属呈现“减少增多减少”的变化趋势。 展开更多
关键词 原油泄漏 海洋飞沫气溶胶 重金属 富集因子 多环芳烃
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全二维气相色谱技术在石油地球化学中的应用进展
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作者 侯佳凯 张志遥 +1 位作者 师生宝 朱光有 《石油与天然气地质》 EI CAS CSCD 北大核心 2024年第2期565-580,共16页
石油是一种多组分的复杂有机混合物,在形成、运移过程中较易受到各种物理、化学和生物作用的改造,其中含量极低的化合物或特殊化合物用常规一维气相色谱难以检测确定。因全二维气相色谱技术具有超高的分辨率和灵敏度、较大的峰容量及准... 石油是一种多组分的复杂有机混合物,在形成、运移过程中较易受到各种物理、化学和生物作用的改造,其中含量极低的化合物或特殊化合物用常规一维气相色谱难以检测确定。因全二维气相色谱技术具有超高的分辨率和灵敏度、较大的峰容量及准确的定性和定量检测结果,可对复杂混合物进行分离与鉴定,从而解决了石油复杂成分的精确定量分析难题。研究结果表明:①全二维气相色谱分别与硫化学发光检测器、电子俘获检测器、氢火焰离子化检测器以及飞行时间质谱仪联用后,在原油馏分烃类组成分析及杂原子化合物分析检测方面的适用范围大、应用效果非常显著;②该技术可用于解析稠油的不可分离混合物成分(UCM)、评价原油裂解程度和判识超深层液态原油保存极限深度、定量评价硫酸盐热化学还原反应(TSR)蚀变强度以及识别原油中痕量分子化合物并进行结构鉴定;③该技术在石油地球化学科学问题研究中发挥了独特优势,今后将在页岩油气勘探以及深层-超深层液态原油运移、成藏保存和次生改造研究中发挥重要作用。 展开更多
关键词 金刚烷 全二维气相色谱 分离原理 石油地球化学 稠油 原油
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启动压力梯度对稠油油藏开发指标的影响
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作者 柯文丽 张文艳 +1 位作者 郭伟泽 喻高明 《中国科技论文》 CAS 2024年第3期390-398,共9页
稠油启动压力梯度的存在加剧了稠油渗流的阻力,为稠油开发造成了一定困难。针对该问题,利用NRSNL非线性渗流模拟软件建立机理模型,研究稠油油藏在不同韵律、渗透率级差和原油黏度条件下启动压力梯度存在与否对剩余油分布、含水率、采出... 稠油启动压力梯度的存在加剧了稠油渗流的阻力,为稠油开发造成了一定困难。针对该问题,利用NRSNL非线性渗流模拟软件建立机理模型,研究稠油油藏在不同韵律、渗透率级差和原油黏度条件下启动压力梯度存在与否对剩余油分布、含水率、采出程度等开发指标的影响。结果表明:启动压力梯度的存在会降低油藏采出程度,油井含水率上升较快,开采20年,采出程度降低1.72%~3.09%,含水上升1.31%~2.78%;相同启动压力梯度条件下,反韵律储层采出程度低于正韵律与复合韵律;原油黏度越大、渗透率级差越大,启动压力梯度对采出程度的影响越大。 展开更多
关键词 稠油启动压力梯度 剩余油分布 韵律 渗透率级差 原油黏度
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Enhanced heavy and extra heavy oil recovery:Current status and new trends
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作者 Sayed Gomaa Khalaf G.Salem A.N.El-hoshoudy 《Petroleum》 EI CSCD 2024年第3期399-410,共12页
Due to the increased demand for energy resources these days,especially due to the Russian-Ukrainian war,the focus of the major countries is turning strongly towards improving oil production,especially heavy and extra ... Due to the increased demand for energy resources these days,especially due to the Russian-Ukrainian war,the focus of the major countries is turning strongly towards improving oil production,especially heavy and extra heavy oil,which represents 40%of the world oil reserve.Steam-based and thermal(EOR)procedures are promising techniques for recovering heavy oil reservoirs,but they suffer from a sequence of problems and complications that arise after long-term application.These complications comprise steam breakthrough,steam overlap,and steam/rock interactions.This research presents the currently applied techniques to maximize the productivity of heavy oil,such as steam injection,cyclic steam stimulation,in-situ combustion,and steam-assisted gravity drainage.Thermal technologies face numerous obstacles,as they are energy and water-intensive processes that are not environmentally friendly.The research also presents future trends in energy-saving and environmentally friendly techniques that enhance heavy oil recovery through vapor extraction(VAPEX)steam-solvent hybrid techniques,electromagnetic energy,sonication,and nanotechnology.The findings of this review reported that all the presented techniques focus on how to reduce the oil viscosity and in-situ upgrade the crude oil properties.In turn,these enhance both the productivity rate and oil recovery and minimize the production cost.This article can be considered a comprehensive review of thermal recovery methods in heavy and extra-heavy oil,in addition to screening criteria used for each method. 展开更多
关键词 Enhanced oil recovery heavy crude oil Steam flood Hybrid techniques NANOTECHNOLOGY
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掺稀稠油重组分沉积规律研究
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作者 黄辉荣 虞维超 +3 位作者 唐艺宁 梁平 王大庆 孙晓波 《石油科学通报》 CAS 2024年第1期158-166,共9页
稠油因蜡、胶质、沥青质等重组分含量多,致使其流动性差,在管输过程中极易出现重组分沉积堵塞管道,给管输安全带来严峻挑战。掺混稀油是改善稠油流动性的有效方法之一,但目前的研究对掺混原油沉积规律关注较少。基于此,本文采用小型沉... 稠油因蜡、胶质、沥青质等重组分含量多,致使其流动性差,在管输过程中极易出现重组分沉积堵塞管道,给管输安全带来严峻挑战。掺混稀油是改善稠油流动性的有效方法之一,但目前的研究对掺混原油沉积规律关注较少。基于此,本文采用小型沉积实验装置,系统研究稀油类型、掺混比例、沉积时间等对掺混原油沉积规律的影响。结果表明,随着沉积时间增加,掺混原油沉积物质量逐渐增大;施加搅拌后,掺混原油沉积物质量减小,且搅拌速率越大,沉积物质量越小;增大稀油掺混量,掺混原油析蜡点降低,沉积物质量减小。揭示了沉积物中蜡、胶质、沥青质含量增加是造成沉积物质量增大的主要原因,提出了将掺混原油析蜡点作为稠油掺稀输送的重要工艺参数加以考虑。该结论为掺混原油管道主要进线指标以及清管周期的确定提供了理论指导。 展开更多
关键词 稠油 掺混原油 掺混比例 析蜡点 沉积规律
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MIP-CGP工艺加工俄罗斯原油重油总结
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作者 刘淼 张景渤 《炼油技术与工程》 CAS 2024年第5期16-19,24,共5页
中国石油辽阳石化分公司2.2 Mt/a俄罗斯原油重油催化裂化装置采用MIP-CGP技术(增产丙烯、多产异构烷烃的清洁汽油生产技术)进行改造,使用专用催化剂CGP-LY。标定结果表明:在100%生产负荷条件下,与改造前的催化裂化技术相比,采用MIP-CGP... 中国石油辽阳石化分公司2.2 Mt/a俄罗斯原油重油催化裂化装置采用MIP-CGP技术(增产丙烯、多产异构烷烃的清洁汽油生产技术)进行改造,使用专用催化剂CGP-LY。标定结果表明:在100%生产负荷条件下,与改造前的催化裂化技术相比,采用MIP-CGP技术改造后,液化石油气产率基本不变;丙烯产率提高了0.3百分点;汽油产率提高了5.47百分点,研究法辛烷值为92.23,提高了1.18单位,抗爆性提高,烯烃质量分数降至30%以下,降低了16.78百分点,有效减少了油品对大气环境的污染;焦炭产率提高了3.73百分点;原料油转化率提高了8.71百分点。上述结果说明MIP-CGP技术具有良好的降低汽油烯烃含量的能力,在改善汽油性质的同时,能显著提高产品产率,满足生产清洁型汽油、降低汽油烯烃含量、提高汽油辛烷值、提高丙烯产率的市场需求。 展开更多
关键词 MIP-CGP工艺 俄罗斯原油重油 操作参数 产品性质 原料油 催化剂 物料平衡
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重油MIP-CGP装置加工俄罗斯原油常三线馏分
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作者 许长辉 崔俊峰 宁海涛 《石化技术与应用》 CAS 2024年第3期201-204,共4页
在中国石油大庆石化公司2.0 Mt/a重油多产异构烷烃并增产丙烯的催化裂化(MIP-CGP)装置上,进行了加工俄罗斯原油常三线馏分(以下简称常三线)催化裂化转化生产液化气和汽油的工业应用,旨在降低柴汽比。结果表明:当常三线在重油MIP-CGP装... 在中国石油大庆石化公司2.0 Mt/a重油多产异构烷烃并增产丙烯的催化裂化(MIP-CGP)装置上,进行了加工俄罗斯原油常三线馏分(以下简称常三线)催化裂化转化生产液化气和汽油的工业应用,旨在降低柴汽比。结果表明:当常三线在重油MIP-CGP装置混合加工原料中的质量占比为15.45%时,产物中干气、油浆、焦炭收率较加工常三线前依次下降了0.03,0.02,0.20个百分点;而液化气、汽油、柴油收率依次上升了0.19,0.05,0.01个百分点;常三线的裂化反应表观转化率高达81.13%,液化气、汽油的表观收率分别为25.86%,37.63%;液化气、稳定汽油、轻柴油的性质均较加工前变化不大。 展开更多
关键词 催化裂化 重油MIP-CGP工艺 俄罗斯原油 常三线馏分 柴油产量 降低
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