1) gas fracturing
气体压裂
1.
The prominent characteristics of TOC high-energy gas fracturing technology with rocket propellant as fuel are its controllable combustion rate, longer pressurization time and longer and wider fracture length compared with other high energy gas fracturing technologies.
ГОС高能气体压裂是用火箭推进剂作燃烧剂,与其它高能气体压裂相比,其突出特点是燃烧速度可得到有效控制,升压时间增长,产生的裂缝长而宽。
2.
Well and layer selection criteria of liquid propellant high energy gas fracturing (HEGF) are included in this paper.
提出了液体药高能气体压裂选井、选层的条件。
3.
On the basis of investigating foreign information and according to the characteristics in high engery gas fracturing process on different formation conditions where high velocity, high temperature and high pressure pulses react instaneously and dynamically, a testing system on downho1e pressure vs time process was developed.
在对国外文献深入调研的基础上,针对不同地层条件下高能气体压裂过程中,井下高速、高温、高压的瞬时动态脉冲作用特点,开发了井下压力—时间过程的测试系统,为进一步改善油气藏开发中应用高能气体压裂提供一种有力的研究手段。
2) high energy gas fracturing
高能气体压裂
1.
Under such circumstances, enhanced perforating, high energy gas fracturing, directional perforation, ultra-overbalanced perforating and tri-mingled perforating & testing are applied to reduce drilling.
根据油藏特点,结合现有射孔技术,提出综合应用复合射孔、高能气体压裂、定方位、超正压、三联作等射孔技术消除钻井污染、沟通天然裂缝,增加裂缝宽度,改善裂缝导流能力,提高采收率。
2.
The work principle, structure, technical characteristics and applied field example of a new type of electro-portfire which was applied to high energy gas fracturing are introduced,and its safety, reliability and perfect of arts and crafts construct are presented.
主要介绍了应用于高能气体压裂的新型电点火装置的工作原理、结构、技术特点及现场应用实例,并结合现场应用对其安全、可靠性和施工工艺的完善进行了分析总结,丰富了高能气体压裂施工工艺。
3.
Ultrahigh pressure deep penetration perforating fracturing technology is the combination of high energy gas fracturing technology with deep penetration perforating fracturing technology.
强超压深穿透射孔及压裂技术是综合了高能气体压裂技术和深穿透复合射孔技术的优势 ,利用高能气体压裂技术起压快速 ,易形成强超压区的特点和深穿透复合射孔技术射孔穿透能力强的优点 ,二者相互结合 ,进一步提高了深穿透复合射孔穿透地层的能力 ,提高了射孔效果。
3) high energy gas fracture
高能气体压裂
1.
The combustion process of high energy gas fracture in oil well is simulated with manometric bomb,the poisonous gas produced in the process is analyzed by infrared spectrum technique.
用密闭爆发器模拟高能气体压裂弹在油井中的燃烧过程,用红外光谱分析技术检测燃气成份中的毒性气体,测试了7个不同生产厂的高能气体压裂弹产品的燃气成份,并对特殊产品燃气中产生HCN机理进行了分析。
2.
The principle of high energy gas fracture and the application of it to test sites in oil fields were described.
叙述了高能气体压裂技术作用原理及其在油田的现场应用情况 ,分析了油层物性对压裂效果的影响 ,提出了针对不同情况的油层物性选择不同施工工艺 ,为选井选层提供参
3.
The paper proposed some measures to reservoir protection during the process of water infection,for instance,high energy gas fracture,washing with acid and so on.
进而,提出该区块保护储层的相应措施,比如高能气体压裂,小型酸化等措施。
4) high-energy gas fracturing
高能气体压裂
1.
Formation mechanism of carbon monoxide in high-energy gas fracturing;
高能气体压裂增产措施中一氧化碳气体生成机制
2.
In order to develop this new energy economically and effectively,high-energy gas fracturing is proposed in this paper,we can combine high-energy gas fracturing with microwave heating technique and the depressurization method or some other methods.
提出了先利用高能气体压裂技术对储层进行压裂后再结合电磁加热或降压法开采,或者利用加热法和降压法结合开采的思路,以期达到经济有效开采的目的。
5) HEGF
高能气体压裂
1.
A Study on Chemical Action in Prosess of HEGF;
高能气体压裂过程中“化学作用”的研究
2.
Experimental Study of Predicting HEGF Production Gain;
高能气体压裂增产预测的实验研究
3.
The study indicates that the main factors of producing CO and other poisonous gases include HEGF formula itself and secondary chemical reaction between high temperature gas of HEGF and reservoir associated gas and oil.
研究表明,高能气体压裂配方本身及高能气体压裂产生的高温气体与伴生气或原油发生二次化学反应是产生一氧化碳及其它有毒、有害气体的主要因素,同时给出了生成机理。
6) multi-pulse high energy gas fracturing(HEGF)
高能气体压裂(HEGF)
补充资料:稠化油压裂液
分子式:
CAS号:
性质:将稠化剂(常用脂肪酸皂)溶于油中(多用原油、汽油、煤油或柴油为基液)形成稠化油压裂液。所用的稠化剂分为油溶性活性剂和油溶性高分子两类。前者除脂肪酸单皂、双皂外还有磷酸酯盐等;后者有聚烯烃、聚二烯烃,如聚丁二烯、聚异丁烯、聚异戊二烯,还有α-烯烃聚合物、聚烷基苯乙烯、聚丙烯酸酯、聚羧酸乙烯酯等。
CAS号:
性质:将稠化剂(常用脂肪酸皂)溶于油中(多用原油、汽油、煤油或柴油为基液)形成稠化油压裂液。所用的稠化剂分为油溶性活性剂和油溶性高分子两类。前者除脂肪酸单皂、双皂外还有磷酸酯盐等;后者有聚烯烃、聚二烯烃,如聚丁二烯、聚异丁烯、聚异戊二烯,还有α-烯烃聚合物、聚烷基苯乙烯、聚丙烯酸酯、聚羧酸乙烯酯等。
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