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Preparation of EVAM-g-NSiO_(2)nanocomposite pour point depressant and its effect on rheological properties of model waxy oil
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作者 Yi-Hai Yang Li-Na Zhang +4 位作者 Zheng-Nan Sun Ming-Xing Bai Guo-Lin Jing Yang Liu Xiao-Yan Liu 《Petroleum Science》 2025年第1期472-480,共9页
Modified ethylene-vinyl acetate copolymer(EVAM)and amino-functionalized nano-silica(NSiO_(2))par-ticles were employed as the base materials for the synthesis of the nanocomposite pour point depressant designated as EV... Modified ethylene-vinyl acetate copolymer(EVAM)and amino-functionalized nano-silica(NSiO_(2))par-ticles were employed as the base materials for the synthesis of the nanocomposite pour point depressant designated as EVAM-g-NSiO_(2).This synthesis involved a chemical grafting process within a solution system,followed by a structural characterization.Moreover,combining macro-rheological performance with microscopic structure observation,the influence of the nanocomposite pour point depressant on the rheological properties of the model waxy oil system was investigated.The results indicate that when the mass ratio of NSiO_(2) to EVAM is 1:100,the prepared EVAM-g-NSiO_(2) nanocomposite pour point depressant exhibits excellent pour point reduction and viscosity reduction properties.Moreover,the nanocomposite pour point depressant obtained through a chemical grafting reaction demonstrates structural stability(the bonding between the polymer and nanoparticles is stable).The pour points of model waxy oils doped with 500 mg/kg ethylene-vinyl acetate copolymer(EVA),EVAM,and EVAM/SiO_(2) were reduced from 34℃ to 23,20,and 21℃,respectively.After adding the same dosage of EVAM-g-NSiO_(2) nanocomposite pour point depressant,the pour point of the model wax oil decreased to 12℃ and the viscosity at 32℃ decreased from 2399 to 2396.9 mPa·s,achieving an impressive viscosity reduction rate of 99.9%.Its performance surpassed that of EVA,EVAM,and EVAM/SiO_(2).The EVAM-g-NSiO_(2) dispersed in the oil phase acts as the crystallization nucleus for wax crystals,resulting in a dense structure of wax crystals.The compact wax crystal blocks are difficult to overlap with each other,pre-venting the formation of a three-dimensional network structure,thereby improving the low-temperature flowability of the model waxy oil. 展开更多
关键词 Model waxy oil NANOPARTICLE pour point depressant Rheological properties Microstructure
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Rheological Properties of Waxy Crude at a Low Temperature in the Presence of Pour Point Depressants 被引量:7
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作者 Jiang Qingzhe Zhao Mifu +1 位作者 Song Zhaozheng Ke Ming 《Petroleum Science》 SCIE CAS CSCD 2005年第4期62-65,共4页
Pour point depressants (PPD) are used to improve the theology of waxy crude. The affect of various factors on the theological properties, and the thermal characteristics of waxy crude treated by PPD have been invest... Pour point depressants (PPD) are used to improve the theology of waxy crude. The affect of various factors on the theological properties, and the thermal characteristics of waxy crude treated by PPD have been investigated. The conclusions are as follows: PPD can reduce the pour point and abnormal point of waxy crude, broaden the temperature range of Newtonian fluid of waxy crude, and lower greatly the viscosity of non-Newtonian fluid of waxy crude. The influence of reheating and high-rate shear on the effect of PPD mainly depends on their temperature. When the reheating temperature is more than the abnormal point of crude by 10℃, the reheating process has little effect on the modification effect of PPD. However, when the reheating temperature is below the abnormal point of crude, the reheating process will reduce the modification effect of PPD. When temperature is above the abnormal point of crude, the high-rate shear has little effect on the modification effect of PPD. At a temperature range where a lot of wax is precipitating, high-rate shear will greatly reduce the modification effect of PPD. 展开更多
关键词 pour point depressant temperature-viscosity curve REHEAT high-rate shear
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Effect of nanocomposite as pour point depressant on the cold flow properties and crystallization behavior of diesel fuel 被引量:1
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作者 Yuan Xue Fengfei Chen +3 位作者 Bin Sun Hualin Lin Bin Dai Sheng Han 《Chinese Chemical Letters》 SCIE CAS CSCD 2022年第5期2677-2680,共4页
The high effective nano-hybrid pour point depressant(PPD)has attracted extensive attention for its po-tential application in improving the cold flow properties of diesel fuel.In this paper,the nano-hybrid PPD was prep... The high effective nano-hybrid pour point depressant(PPD)has attracted extensive attention for its po-tential application in improving the cold flow properties of diesel fuel.In this paper,the nano-hybrid PPD was prepared by melt-blending method using three different alkyl chain lengths(i.e.,tetradecyl,hexade-cyl,and octodecyl)of n-alkyl methacrylate-maleic anhydride copolymers(R 1 MC-MA,R 1=C_(14),C_(16),C_(18))and SiO_(2)nanoparticles.The effect of those nano-hybrid PPDs on the cold filter plugging point(CFPP)and solidifying point(SP)depressing of diesel fuel were studied.Results indicated that nano-hybrid PPD showed much better performance on diesel fuel.The diesel fuel treated with 0.2 wt%C_(14)MC-MA/SiO_(2)nano-hybrid PPD exhibited the best depression in CFPP and SP by 6℃ and 18℃,respectively,which higher than that of single C 14 MC-MA.Viscosity-temperature curves and polarized optical microscopy were conducted to explore the performance mechanism;and results presented that nano-hybrid PPD of C_(14)MC-MA/SiO_(2)could effectively lower the low-temperature viscosity,and modify the crystallization behavior and crystal morphology of diesel.Therefore,the cold flow properties of diesel were significantly improved. 展开更多
关键词 Diesel fuel pour point depressant NANO-HYBRID Cold flow properties Crystallization behavior
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Synthesis of comb bipolymers and their pour point depressing properties
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作者 Zhang Changqiao Gao Congcong +4 位作者 Gao Fengfeng Wang Jian Zhang Dawei Wang Yan Xu Dawei 《Petroleum Science》 SCIE CAS CSCD 2014年第1期155-160,共6页
A bipolymer maleic anhydride-methyl acrylate (MAMA) was synthesized from maleic anhydride and methyl acrylate based on molecular design.MAMA further reacted with oleylamine or octadecyl alcohol to generate two comb ... A bipolymer maleic anhydride-methyl acrylate (MAMA) was synthesized from maleic anhydride and methyl acrylate based on molecular design.MAMA further reacted with oleylamine or octadecyl alcohol to generate two comb polymers called Oleamide-MAMA (NMAMA) and OctadecanolMAMA (OMAMA),respectively.The structure of both the polymers was confirmed by their infrared spectral analysis (IR),gel permeation chromatography analysis (GPC) and differential scanning calorimeter (DSC).Moreover,the pour point depressing (PPD) properties of these comb polymers were examined experimentally.Experimental results showed that besides the molecular weight and concentration of the polymers,the length of side chains and the number of functional groups also had great influence on the pour point depressing performance.The π bonds and hydrogen bonds between depressants were the key factors for improving the pour point depressing properties.These results suggest that both OMAMA and NMAMA are potential pour point depressants for industry. 展开更多
关键词 Maleic anhydride comb polymers pour point depressant hydrogen bonds molecular simulation
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Effect of nanocomposite pour point depressant EVAL/CNT on flow properties of waxy crude oil
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作者 Yang Liu Zheng-Nan Sun +3 位作者 Sheng-Zhu Ji Yi-Hai Yang Jian-Qi Xu Guo-Lin Jing 《Petroleum Science》 SCIE EI CAS CSCD 2023年第6期3807-3818,共12页
The nanocomposite EVAL-CNT was produced by chemical grafting in the solution system through the esterification of ethylene-vinyl alcohol copolymer (EVAL) and carboxylated multi-walled carbon nanotubes (O-MWCNT), and i... The nanocomposite EVAL-CNT was produced by chemical grafting in the solution system through the esterification of ethylene-vinyl alcohol copolymer (EVAL) and carboxylated multi-walled carbon nanotubes (O-MWCNT), and its structural properties were characterized. The improvement of the rheological properties of the waxy oil system by the novel pour point depressant was investigated using macroscopic rheological measurements and microscopic observations. The results showed that EVAL-CNT nanocomposite pour point depressant (PPD) could significantly reduce the pour point and improve the low temperature fluidity of crude oil and had better performance than EVAL-GO at the same addition level. The best effect was achieved at the dosing concentration of 400 ppm, which reduced the pour point by 13 ℃ and the low-temperature viscosity by 85.4%. The nanocomposites dispersed in the oil phase influenced the precipitation and crystallization of wax molecules through heterogeneous crystallization templates, which led to the increase of wax crystal size and compact structure and changed the wax crystal morphology, which had a better effect on the rheological properties of waxy oil. 展开更多
关键词 pour point depressant Carbon nanotubes NANOCOMPOSITES Waxy crude oil Rheological behavior
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Study on Application of Pour Point Depressant for Diesel Fuel
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作者 Zhang Baoji 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2008年第2期19-22,共4页
Taking into account the actual crude slate processed at the refinery, it is necessary to make reasonable combination and blending of crude oils. In order to cope with high wax content in diesel fuel it is proposed to ... Taking into account the actual crude slate processed at the refinery, it is necessary to make reasonable combination and blending of crude oils. In order to cope with high wax content in diesel fuel it is proposed to appropriately regulate the refining process scheme and add additives to refined products. This measure after being applied in the production practice has brought about good results and has met the needs of commercial production. 展开更多
关键词 pour point depressant for diesel fuel high-wax diesel BLENDING commercial application
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Relationship between the Composition of Polymer of n-Alkyl Substituted Acrylate and Vinyl Amine and Their Performance on Pour Point Depression
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作者 Jiang Qingzhe Luo Fangmin Song Zhaozheng Ke Ming 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2005年第3期27-32,共6页
Polymer of n-alkyl substituted acrylate (PA) with the alkyl side chains C16- 30 were synthesized. Their crystallinity, solubility and effect on pour point depression were studied. Results showed that only carbon ato... Polymer of n-alkyl substituted acrylate (PA) with the alkyl side chains C16- 30 were synthesized. Their crystallinity, solubility and effect on pour point depression were studied. Results showed that only carbon atoms located far away from polar groups of PAL pour point depressants participated in crystallization. When the number of carbon atoms that participated in crystallization is about three fourths of the average carbon number of wax in crude, the effect of PA is the best. The molecular weight distribution of PA pour point depressant has little influence on the effect of pour point depression, and the average molecular weight of PA in the range of ( 1.5- 2.2)× 10^4 shows the best effect. The introduction of polar groups into the molecule of PA can improve its performance. However, a too high content of polar groups in PA would cause deterioration, and even lead to loss of PA's performance for pour point depression. 展开更多
关键词 POLYACRYLATES molecular weight distribution pour point depression
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Shengyang Oilfeild──The Top Rank of High Pour Point Oil in The World
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作者 Yan Hao 《China Oil & Gas》 CAS 1995年第2期64-64,共1页
ShengyangOilfeild──TheTopRankofHighPourPointOilinTheWorld¥YanHaoThereare11oilfieldswiththepointover40℃inthew... ShengyangOilfeild──TheTopRankofHighPourPointOilinTheWorld¥YanHaoThereare11oilfieldswiththepointover40℃intheworld.Amongthemthe... 展开更多
关键词 RANK The Top Rank of High pour point Oil in The World Shengyang Oilfeild
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Synthesis of new EVA graft copolymer and its pour point depressant performance evaluation for Daqing crude oil 被引量:4
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作者 伍丽娟 张帆 +1 位作者 关中原 郭淑凤 《Journal of Central South University》 SCIE EI CAS 2008年第S1期488-491,共4页
EVA was widely used as the pour point depressant for waxy oil.In order to improve its effect,some graft copolymerization methods should be used to modify EVA's property.EVA has long side chains and nitrogen polar ... EVA was widely used as the pour point depressant for waxy oil.In order to improve its effect,some graft copolymerization methods should be used to modify EVA's property.EVA has long side chains and nitrogen polar groups to enforce its adaptability and effect of waxy oil.The pure amine,maleicanhydride and their reaction product were tested using infrared spectra and the NMR spectral.The results show that when the modified EVA is added into oil,the wax deposits not only on the main chain but also on the side chains.And the polar groups have the function to avoid and resist the wax crystals connection each other to form the net.Using the reaction product of maleicanhydride and high carbonic amine(C12,C16,C18 amine) as the graft component,the toluene as the solvent and BPO as the initiator,the series of new EVA graft copolymer with special side chains are prepared under controlled condition.A series of cylmaleimide exist indeed in modified EVA and the highest grafted percentage is 18.8%.EVA-16,the new graft copolymer,is better than EVA about 3 ℃ more in depressant the pour-point of Daqing waxy crude oil. 展开更多
关键词 MODIFICATION EVA COPOLYMER pour point depressants performance evolution DAQING crud
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Efficiency of Amphoteric Surfactants as Flow Improvers and Pour Point Depressants 被引量:1
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作者 Noura El Mehbad 《Journal of Power and Energy Engineering》 2013年第5期90-94,共5页
Some amphoteric surfactants (N-Decyl-N-benzyl-N-methylglycine(AB) and N-Dodecyl-N-benzyl-N-methylglycine(CD) were prepared in the laboratory. The physicochemical chemical characteristics were investigated. The adsorpt... Some amphoteric surfactants (N-Decyl-N-benzyl-N-methylglycine(AB) and N-Dodecyl-N-benzyl-N-methylglycine(CD) were prepared in the laboratory. The physicochemical chemical characteristics were investigated. The adsorption behavior of these surfactants at oil/air interface was investigated by measuring the surface tension and interfacial tension as function of concentration. Surface properties, in particular the critical micelle concentration (CMC), the maximum surface excess (ΓCMC) and the minimum surface area (AMIN) were measured. It is found that the surface and thermodynamic properties of the prepared surfactants depend on their hydrocarbon chain length. Also it is found that there is a good relation between surface properties of the additive and their efficiency in depressing the pour point. The mechanism of the depressants action has been suggested according the adsorption of each additive. Adsorption of the additive on the surface of the wax particles inhibits their growth and alters the crystal habits through micelle core. As the results the surface and thermodynamic parameters confirm the suggested mechanism and the decreasing of pour point. This is resulted in a multilayer, more isotropic wax crystal, and thus only a fixed amount of wax separates at any given temperatures. The results were discussed in terms of adsorption isotherm. 展开更多
关键词 WAX ADDITIVES pour point Amphotric SURFACTANTS WAXY Gas OIL
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Application of I-Frequency Skin Effect ElectricHeating to High Pour Point and High Viscous Oil Production and Transportation
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作者 Wang Qiqoyue and Li Shouliang(Sciences & Technology Department , Dagang Petroleum Administriation) 《China Oil & Gas》 CAS 1997年第1期33-34,共2页
关键词 HIGH pour point CRUDE VISCOUS oil RESERVOIR Heating
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Simulation and experimental study on the method for reducing the pour point of pentaerythritol ester
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作者 Chaofan Wang Kaiyi Tian +5 位作者 Haochen Zuo Yingying Shu Jiachen Yao Kai Zhang Zhengyong Huang Jian Li 《High Voltage》 2025年第3期680-688,共9页
The low temperature flow properties of synthetic esters were investigated based on molecular dynamics simulations,and the influence of the molecular structure of pen-taerythritol esters on the pour point was explored.... The low temperature flow properties of synthetic esters were investigated based on molecular dynamics simulations,and the influence of the molecular structure of pen-taerythritol esters on the pour point was explored.When the carbon number and parity of the ester chain are the same,the pour point of the ester with a branched chain is relatively low.The pour point is related to the position of the branched chain,which near the ester group or methyl group is slightly less effective in reducing the pour point than in theβ-C position.When the number of carbons in the ester chain increases from an even to an odd number(from 6 to 7,or from 8 to 9),the pour point rises by approximately 14.5℃(from−47.65℃ to−33.15℃)or 9.5℃(from−9.65℃ to−0.15℃).When the number of carbons increases from odd to even numbers(from 7 to 8,or from 9 to 10),the pour point rises by approximately 23.5℃(from−33.15℃ to−9.65℃)or 15.5℃(−0.15℃ to 15.35℃).The branched-chain modification method for reducing the pour point of pentaerythritol ester has been proposed.The pour point of the pentaerythritol ester was−40℃ when the percentage of branched chain acid in the raw material was 10%and 15%. 展开更多
关键词 molecular structure molecular dynamics simulations molecular dynamics simulationsand methyl group branched chainwhich pour point synthetic esters low temperature flow properties
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An experimental study of diesel fuel cloud and pour point reduction using different additives
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作者 Amir Hossein Saeedi Dehaghani Reza Rahimi 《Petroleum》 CSCD 2019年第4期413-416,共4页
An experimental study was conducted to investigate the effects of four different additives on pour point and cloud point temperatures of a diesel fuel.Sample mixtures were prepared in different volumetric percentages ... An experimental study was conducted to investigate the effects of four different additives on pour point and cloud point temperatures of a diesel fuel.Sample mixtures were prepared in different volumetric percentages of four different additives(Ethanol,Toluene,n-Heptane and Xylene)and diesel fuel mixture.Pour point and cloud point temperatures of the blends were measured using standard ASTM D2500 and ASTM D97-96a methods,respectively.Introducing the additives to the diesel fuel did not lead to a significant reduction in cloud point temperature of the fuel.In fact,the greatest obtained reduction in cloud point temperature was achieved using 20 vol%or more of Toluene-diesel fuel mixtures.Although cloud points did not change significantly,even the slightest amounts of additives caused a high reduction in the pour point temperature of the fuel.Ethanol was the most effective additive in lowering the pour point temperature of the fuel.A 20%ethanol-fuel mixture caused nearly a 30reduction in the fuel pour point temperature.Therefore,knowing that none of the additives has a significant effect on cloud point temperature,while the greatest reduction in pour point temperature is achieved using ethanol even in low Vol%s,it can be concluded that the most efficient additive among these four additives to alter cold flow properties of a certain diesel fuel is Ethanol. 展开更多
关键词 Cloud point pour point Diesel fuel Cold flow properties WAX
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润滑油添加剂桐油酸衍生物的合成及性能
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作者 丁丽芹 张彦平 +3 位作者 钟又皆秀 梁生荣 钟汉斌 徐海升 《石油学报(石油加工)》 北大核心 2025年第2期542-552,共11页
以桐油酸(EA)为原料,引入第二单体甲基丙烯酸苄酯(BzMA),采用Schlenk技术合成了桐油酸-甲基丙烯酸苄酯共聚物(PEBz)和桐油-甲基丙烯酸苄酯共聚物(PTBz),采用红外光谱和核磁共振氢谱表征共聚物的结构,采用凝胶渗透色谱仪测定共聚物的相... 以桐油酸(EA)为原料,引入第二单体甲基丙烯酸苄酯(BzMA),采用Schlenk技术合成了桐油酸-甲基丙烯酸苄酯共聚物(PEBz)和桐油-甲基丙烯酸苄酯共聚物(PTBz),采用红外光谱和核磁共振氢谱表征共聚物的结构,采用凝胶渗透色谱仪测定共聚物的相对分子质量及其多分散性指数,采用热重分析仪测定共聚物的热稳定性,并对共聚物的抗磨和降凝性能进行评价。结果表明:在单体质量比m(EA)∶m(BzMA)为2∶8、引发剂偶氮二异丁腈(AIBN)质量分数1.5%、反应温度80℃、反应时间10 h的条件下,PEBz收率为52.98%,相对分子质量为3.388×10^(4),多分散性指数为1.5。在润滑油馏分(350~395℃)中添加质量分数1.0%的PEBz后,磨斑直径降低0.584 mm,凝点降低14℃。PEBz抗磨和降凝效果均优于PTBz,可作为一种兼有抗磨和降凝双重功能的润滑油添加剂代替传统石油基润滑油添加剂。 展开更多
关键词 桐油 桐油酸 甲基丙烯酸苄酯 共聚物 抗磨 降凝
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高含蜡、高凝点油藏用降凝驱油微乳液制备及性能 被引量:1
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作者 孟勇 张卫东 +1 位作者 郭榕 李应成 《精细化工》 北大核心 2025年第4期903-908,共6页
将阴离子表面活性剂硬脂醇聚醚羧酸钠(SEC)和阳离子表面活性剂十八烷基三甲基溴化铵(OTAB)的混合表面活性剂、聚丙烯酸酯与乙烯-醋酸乙烯酯共聚物的混合物(聚合物型降凝剂RD 5120T)和去离子水混合,制备了降凝驱油微乳液。考察了n(SEC)∶... 将阴离子表面活性剂硬脂醇聚醚羧酸钠(SEC)和阳离子表面活性剂十八烷基三甲基溴化铵(OTAB)的混合表面活性剂、聚丙烯酸酯与乙烯-醋酸乙烯酯共聚物的混合物(聚合物型降凝剂RD 5120T)和去离子水混合,制备了降凝驱油微乳液。考察了n(SEC)∶n(OTAB)对混合表面活性剂的增溶能力、m(RD 5120T)∶m(SEC+OTAB)对降凝驱油微乳液平均粒径的影响;采用凝固点测试、相态实验、增溶组分分析、界面张力测试、物模实验测试了降凝驱油微乳液的性能,并评价了其在东部某油田的现场应用。结果表明,在n(SEC)∶n(OTAB)=7∶3〔n(SEC)+n(OTAB)=1.0 mol〕、m(RD 5120T)∶m(SEC+OTAB)=1∶10、SEC(610.7 g,0.7 mol)、RD 5120T+SEC+OTAB质量浓度为200 g/L的条件下,制备的降凝驱油微乳液(微乳液-1)的平均粒径为83.64 nm,其对3种高凝原油凝固点平均降低34%以上,对原油中的长链脂肪烃(C_(18)~C_(30))具有更强的增溶能力,可将原油与水的界面张力降至6×10^(-3)mN/m。物模实验中,注入孔隙体积倍数(PV)0.2、质量浓度5 g/L的微乳液-1可提高原油采收率12.1%;现场试验中,微乳液-1可对高含蜡、高凝点油藏起到降水增油的效果,平均综合含水率(质量分数)从94.8%最低降至89.1%,平均日油从4.5 t最高提升至7.7 t。 展开更多
关键词 高凝油 降凝 阴/阳离子表面活性剂 微乳液 提高采收率 油田化学品
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基于挂片法的原油凝点在线测量方法研究
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作者 石磊 卞睿 +4 位作者 郁振华 李传宪 杨飞 孙广宇 姚博 《石油炼制与化工》 北大核心 2025年第11期65-71,共7页
凝点是衡量原油低温流动性的一项重要工程物性指标,但根据凝点测试国家标准,难以实现管道的在线测量。本研究通过流变仪开展了静态降温试验,结果表明,原油降温过程伴随的体积收缩和胶凝结构的形成导致转子在凝点附近开始受到显著的下拉... 凝点是衡量原油低温流动性的一项重要工程物性指标,但根据凝点测试国家标准,难以实现管道的在线测量。本研究通过流变仪开展了静态降温试验,结果表明,原油降温过程伴随的体积收缩和胶凝结构的形成导致转子在凝点附近开始受到显著的下拉轴向力。基于此,开发了一种基于拉力测试与标准凝点测试装置的挂片法凝点测定方法,有望实现原油凝点的准确在线测量。试验结果表明,挂片的桨叶数量和尺寸仅影响拉力的变化幅度,对凝点测试结果无显著影响。该方法重复性良好,适用于典型的石蜡基和中间基原油,并且测试结果与现行标准方法具有良好的一致性,可实现对管输原油凝点的远端测试,为输油管道运维的数字化、智能化转型提供了关键支撑。 展开更多
关键词 原油 凝点 挂片 拉力 在线测试
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纳米杂化碳球-聚十六烯降凝防蜡剂的合成及性能评价
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作者 严东寅 李龙 +4 位作者 冯泉 戚亚明 尹宇寒 宗郡桓 颜学敏 《化学与生物工程》 北大核心 2025年第9期30-34,42,共6页
以葡萄糖为原料,通过水热法制备含有羟基的纳米碳球,利用甲基丙烯酰氯与羟基发生酰化反应将纳米碳球进行杂化,再将纳米杂化碳球与十六烯进行自由基聚合,得到纳米杂化降凝防蜡剂CS-H,利用FTIR、1HNMR和TG对其结构进行了表征,对其降凝防... 以葡萄糖为原料,通过水热法制备含有羟基的纳米碳球,利用甲基丙烯酰氯与羟基发生酰化反应将纳米碳球进行杂化,再将纳米杂化碳球与十六烯进行自由基聚合,得到纳米杂化降凝防蜡剂CS-H,利用FTIR、1HNMR和TG对其结构进行了表征,对其降凝防蜡性能进行了评价,并对其降凝防蜡机理进行了分析。结果表明,CS-H的杂化率约为92.3%;当CS-H浓度为100mg·L^(-1)时,含蜡原油WCO-1和WCO-2的倾点分别降低了11℃和6℃,析蜡点分别降低了6℃和4℃;CS-H在WCO-1和WCO-2中均表现出良好的降凝防蜡性能,具有良好的工业化应用前景。 展开更多
关键词 纳米碳球 杂化 聚合 降凝防蜡剂 含蜡原油
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环保低碳型植物绝缘油及变压器低温特性研究进展
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作者 姚德贵 杨涛 +5 位作者 王飞鹏 郑含博 景冬冬 蔡胜伟 王吉 董大磊 《绝缘材料》 北大核心 2025年第8期11-18,共8页
本文阐述了植物绝缘油及植物绝缘油变压器低温特性与植物绝缘油低温性能改善等方面的研究现状,同时也指出开展植物绝缘油及变压器低温特性的系统研究对扩大植物绝缘油变压器的应用条件与应用范围和推动我国植物绝缘油变压器产业链的进... 本文阐述了植物绝缘油及植物绝缘油变压器低温特性与植物绝缘油低温性能改善等方面的研究现状,同时也指出开展植物绝缘油及变压器低温特性的系统研究对扩大植物绝缘油变压器的应用条件与应用范围和推动我国植物绝缘油变压器产业链的进步具有重要意义。 展开更多
关键词 植物绝缘油 倾点 运动黏度 低温流动性 低温冷态启动
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油溶性超长碳链防蜡降凝剂的制备及作用机理
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作者 但波 马喜平 +2 位作者 黄钰 肖万鑫 郑存川 《应用化工》 北大核心 2025年第2期355-361,共7页
为预防塔里木油田H原油中高碳数石蜡的析出,改善原油低温流动性。通过自由基溶液聚合法,以丙烯酸二十二酯、马来酸酐和1-十八烯为原料研制出一种超长碳链的油溶性防蜡降凝剂PDM,对加剂前后防蜡降凝性能、普适性、析蜡特性、微观形貌以... 为预防塔里木油田H原油中高碳数石蜡的析出,改善原油低温流动性。通过自由基溶液聚合法,以丙烯酸二十二酯、马来酸酐和1-十八烯为原料研制出一种超长碳链的油溶性防蜡降凝剂PDM,对加剂前后防蜡降凝性能、普适性、析蜡特性、微观形貌以及碳数分布进行了评价。结果表明,当PDM加量为2000 mg/L时,静态防蜡率可达74.79%,动态防蜡率为50%以上,H原油的凝点可从26℃降至9℃,并对同区块的三种原油表现出良好的普适性。PDM主要是通过长碳链烷基与蜡晶的共晶吸附来改变蜡晶聚集的形态结构,分子中的极性酸酐基团将持续增强蜡晶在原油中的分散性,两者协同作用实现预防高碳数石蜡沉积的目的。PDM的加入减弱了蜡晶间的相互作用,降低了H原油凝点,显著改善了H原油低温流动性。 展开更多
关键词 高碳数石蜡 防蜡降凝剂 动态防蜡 蜡晶结构 防蜡机理
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热历史与剪切历史对克乌稠稀混油凝点的影响
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作者 熊小琴 李海鹏 +2 位作者 邢晓凯 王子薇 徐宁 《石油化工》 北大核心 2025年第9期1323-1329,共7页
针对稠稀混油在输送过程中凝点升高的现象,以克乌线稠稀混油为例,利用POM,DSC等方法,基于宏观流变和微观图像,研究了热历史和剪切历史对混油凝点的影响,分析了析蜡峰温处蜡晶图像的分形维数和表观面积分数与混油凝点变化规律之间的关系... 针对稠稀混油在输送过程中凝点升高的现象,以克乌线稠稀混油为例,利用POM,DSC等方法,基于宏观流变和微观图像,研究了热历史和剪切历史对混油凝点的影响,分析了析蜡峰温处蜡晶图像的分形维数和表观面积分数与混油凝点变化规律之间的关系。实验结果表明,随加热温度的升高,混油的凝点先升高后降低,加热至40℃时,混油凝点上升幅度最大。快速冷却和长时间静置均会导致混油凝点出现轻微上升;低转速剪切对混油凝点影响不显著,而当转速升至2000 r/min以上时,混油凝点上升幅度可达8℃。剪切时间对混油凝点的影响有限。微观表征结果显示,凝点越高,蜡晶图像的分形维数和表观面积分数越小。 展开更多
关键词 原油 凝点 热历史 剪切历史 分形维数 表观面积分数
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