1) infill pattern
加密井冈
2) intermediate well
井网加密井
3) well pattern thickening
井网加密
1.
Adjusting scheme of well pattern thickening and achievements for Wenxi No.6 block in Shanshan Oilfield;
鄯善油田温西六区块井网加密调整方案研究及实施效果
2.
Recognition of residual oil distribution after well pattern thickening in Sabei Area
萨北开发区井网加密后剩余油分布再认识
3.
3%,after well pattern thickening.
针对杏十三聚合物工业性试验区注采井距过大、葡Ⅰ组油层作为一套层系开采聚驱控制程度低、聚驱效果差的实际情况,在杏十三区东部开展了缩小井距试验,注采井距由212 m缩小到150m,并把葡Ⅰ3单独作为一套层系开采,井网加密后,聚驱控制程度得到进一步提高,由52。
4) infill well
加密井
1.
Fracturing stimulate technology of infill well.;
加密井区油井压裂增产技术
2.
Based on the combination of Arps decline curve and economics fundamentals,the method to calculate the lower limit of single infill well controlled recoverable reserves is studied.
将Arps递减曲线与技术经济学原理相结合,研究了加密井单井控制可采储量下限的计算方法,在考虑投产年的计产时间与评价期内产量递减规律的基础上,运用投资净现值法,推导了不同经济条件下单井增加可采储量下限的解析表达式,分析了不同经济条件与单井增加可采储量下限的关系,建立了单井增加可采储量下限与单井投资、油价、成本、开采时间、递减率及投产年计产时间的定量关系,可为单井个性化加密可行性分析提供可靠依据。
3.
By analyzing their testing and fracturing data,it is concluded that single infill well's production rate is affected by its infill way and a good result could be gained where infilled at areas without being involved by water and abnormal pressure caused by water injection.
安塞油田 1996~ 1999年共打加密调整井 6 5口 ,通过对这些加密井的试油、压裂资料分析 ,认为加密井的单井产量受其加密方式的影响 ,在水未波及地带或注水形成的异常高压区加密均取得较好的效果。
5) pattern infill
井网加密
1.
Well pattern infill test study for low permeability reservoir;
低渗透油藏井网加密试验研究
6) infilled well pattern
井网加密
1.
In order to improve recovery of thin sand heavy oil loop in Gudao Oilfield, using the methods of reservoir engineering, numerical simulation and performance analysis studied infilled well pattern adjustment according to the distribution feature of remaining oil during the middle-last stage after many times of cyclic steam stimulation.
为了进一步提高孤岛油田薄层稠油环蒸汽吞吐的采收率,针对高轮次吞吐中后期剩余油分布特点,应用油藏工程方法、数值模拟技术和动态分析方法,开展了井网加密调整研究,将200m×283m反九点法基础井网加密成141m×200m五点法井网;该优化方案实施后取得了显著效果,单井产油量平均达到13。
补充资料:多菌灵-井冈霉素悬浮剂,28%
分子式:
分子量:
CAS号:
性质:简称28%多-井悬浮剂。一种杀菌剂混合制剂,是按照筛选出的最佳配方,将多菌灵、井冈霉素、助剂和水经计量后,投入砂磨锅中进行混合、粗碎,然后,转入砂磨机中细磨而制得。产品外观为浅褐至灰白色易流动悬浮液体,相对密度为1.13~1.15(30℃),不易燃爆,与水能任意混合,悬浮率>90%,pH值为3~5,在正常条件下贮存,稳定期为二年。本制剂与多菌灵、井冈霉素相比,具有显著增效作用,同时,还具有延缓病菌对多菌灵产生抗药性、提高防治效果、降低施用量、扩大井冈霉素的防治谱等特点。能有效地防治粮、棉、油、果树、蔬菜等多种作物的多种病害。
分子量:
CAS号:
性质:简称28%多-井悬浮剂。一种杀菌剂混合制剂,是按照筛选出的最佳配方,将多菌灵、井冈霉素、助剂和水经计量后,投入砂磨锅中进行混合、粗碎,然后,转入砂磨机中细磨而制得。产品外观为浅褐至灰白色易流动悬浮液体,相对密度为1.13~1.15(30℃),不易燃爆,与水能任意混合,悬浮率>90%,pH值为3~5,在正常条件下贮存,稳定期为二年。本制剂与多菌灵、井冈霉素相比,具有显著增效作用,同时,还具有延缓病菌对多菌灵产生抗药性、提高防治效果、降低施用量、扩大井冈霉素的防治谱等特点。能有效地防治粮、棉、油、果树、蔬菜等多种作物的多种病害。
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