1) Putaohua oilfield
葡萄花油田
1.
Research of the limits of development indexes of Putaohua oilfield in high water cut period;
葡萄花油田高含水期开发技术政策界限研究
2.
Application of fuzzy method to selecting wells and formations for fracturing in Putaohua Oilfield;
模糊识别方法在葡萄花油田压裂选井选层中的应用
3.
The result of production by CO2 soak in Putaohua Oilfield shows that under reservoir conditions CO2 fluid will vaporize promptly and solve in crude oil to raise pore pressure in reservoir, increase elastic energy of reservoirs in local area, thus to enhance oil recovery of residual oil in isolated sandbody, which would not be completed in current stimulation well patterns.
葡萄花油田利用CO_2吞吐进行采油研究结果表明,在油层条件下,液态的CO_2能够快速汽化并溶于原油中使储集层孔隙压力增高,局部地区油层的弹性能量增加,从而提高现井网注来关系无法完善的孤立砂体中的剩余油藏的采收率。
2) Putaohua oil field
葡萄花油田
1.
Muddy siltstone reservoir characters in Putaohua oil field;
葡萄花油田泥质粉砂岩储层的特征
2.
The filter experimentation to choose bactericides for injection waters in Putaohua oil field was introduced.
介绍了葡萄花油田注入水杀菌剂的室内筛选实验 ,对杀菌剂与各水质处理站注入水的配伍性及杀菌效果进行筛选 ,有效提高葡萄花油田注水水质 ,防止管道堵塞、腐蚀 ,提高注水量 ,保证油田的连续生产。
3.
Putaohua Oil Field is the main productive area in the southern part of Daqing Placanticline.
大庆长垣南部主要产区的葡萄花油田 ,经过 2 0多年的开发 ,油层重复压裂比例较高 ,且有的层已经经历了 3、 4次压裂改造 ,因随着时间的延长支撑剂的破碎率增加、支撑剂镶嵌到裂缝壁面减小了裂缝宽度、沉淀物堵塞孔道和地层中出现三相流使裂缝导流能力下降。
3) Putaohua reservoir
葡萄花油层
1.
Eeliverability and potential capacity of horizontal wells in Putaohua reservoir with low oil abundance;
低丰度葡萄花油层水平井产能及潜能
2.
Oil and gas distribution rules in Putaohua Reservoir in Yingtai-Da'an region in north Songliao Basin;
松辽盆地北部英台—大安地区葡萄花油层油气分布规律
3.
Reservoir characteristics of Putaohua Reservoir in Gulong area in northern Songliao Basin;
松辽盆地北部古龙地区葡萄花油层储层特征研究
4) Putaohua Formation
葡萄花油层
1.
Fine oil exploration of Putaohua Formation in Xujiaweizi area,Songliao Basin;
松辽盆地徐家围子地区葡萄花油层精细勘探
2.
Sedimentary mode of shallow lacustrine delta of large continental basin——An example from Putaohua Formation in northern Songliao Basin;
大型坳陷湖盆浅水三角洲沉积模式——以松辽盆地北部葡萄花油层为例
3.
Accident sedimentary of Putaohua Formation in the north of Songliao Basin;
松辽盆地北部葡萄花油层事件沉积
5) Putaohua oil reservoir
葡萄花油层
1.
General reservoir beds features of Putaohua oil reservoir in Songfangtun oilfield, Songliao basin;
松辽盆地宋芳屯油田葡萄花油层储集层综合特征
2.
Susceptivity evaluation and protection plans for the reservoir beds of Putaohua oil reservoir in Songfangtun oilfield, Songliao basin;
松辽盆地宋芳屯油田葡萄花油层储层敏感性评价及油层保护对策
3.
Fracturing technologies for the oil production wells with higher water content in Putaohua oil reservoir of Songfangtun oilfield, Songliao basin;
松辽盆地宋芳屯油田葡萄花油层高含水油井压裂技术
6) Putaohua oil layer
葡萄花油层
1.
Reservoir classification of Putaohua oil layer in the south of Aobaota Oilfield;
敖南油田葡萄花油层储层类型划分
2.
Hydrocarbon migration and accumulation mode in Putaohua oil layer of Sanzhao Depression;
三肇凹陷葡萄花油层油气运聚成藏模式
3.
In this paper,by analysis of reservoir characteristic,lithology,sedimental environment and geological feature of Putaohua oil layer in Fang 3 area Songfangtun oilfield,Songliao basin,the outhors disccuss reservoir characteristics and it's influence factors.
通过对松辽盆地宋芳屯油田芳3区块葡萄花油层砂岩储层岩性、物性、沉积环境及地质特征的研究,对葡萄花油层砂岩储层的物性特征及其影响因素进行了系统的分析,认为长石砂岩和岩屑质长石砂岩是主要砂岩类型,岩性有粉、细砂岩等,但以粉砂岩为主。
补充资料:葡萄花醇
分子式:C7H16O
分子量:116.20
CAS号:111-70-6
性质:无色粘稠液体。熔点-34.1℃,沸点176℃,155.6℃(53.3kPa),136.6℃(26.7kPa)119.5℃(13.3kPa)99.8℃(5.33kPa),85.8℃(2.67kPa),74.7℃(1.33kPa),64.3℃(0.67kPa),42.4℃(0.133kPa),相对密度0.8187(25/4℃),折光率1.4224(25℃),闪点73℃。能与乙醚、乙醇混溶,该品在1L水中的溶解克数:18℃时为1g,100℃时2.85g,130℃时5.15g。有芳香气味。
制备方法:由正庚醛还原而得。将1.8kg铁屑、3L水和0.45kg庚醛一起搅拌,加热回流6-7h,然后进行水蒸汽蒸馏,约得馏出物7-8L,分出油层,加入1L20%的氢氧庚酯水解。分现油层进行蒸馏,收集172-176℃馏分,可得约350g庚醇。还原反应也可在稀盐酸存在下进行。另外,戊烷与环氧乙烷在无水溴化铝存在下反应,也可制得庚醇。
用途:用作溶剂,用于香料制备和有机合成。
分子量:116.20
CAS号:111-70-6
性质:无色粘稠液体。熔点-34.1℃,沸点176℃,155.6℃(53.3kPa),136.6℃(26.7kPa)119.5℃(13.3kPa)99.8℃(5.33kPa),85.8℃(2.67kPa),74.7℃(1.33kPa),64.3℃(0.67kPa),42.4℃(0.133kPa),相对密度0.8187(25/4℃),折光率1.4224(25℃),闪点73℃。能与乙醚、乙醇混溶,该品在1L水中的溶解克数:18℃时为1g,100℃时2.85g,130℃时5.15g。有芳香气味。
制备方法:由正庚醛还原而得。将1.8kg铁屑、3L水和0.45kg庚醛一起搅拌,加热回流6-7h,然后进行水蒸汽蒸馏,约得馏出物7-8L,分出油层,加入1L20%的氢氧庚酯水解。分现油层进行蒸馏,收集172-176℃馏分,可得约350g庚醇。还原反应也可在稀盐酸存在下进行。另外,戊烷与环氧乙烷在无水溴化铝存在下反应,也可制得庚醇。
用途:用作溶剂,用于香料制备和有机合成。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条