導(dǎo)航：全球石油化工網(wǎng) >> 資訊頻道 >> 技術(shù)裝備

EXPEC研究中心研發(fā)新型激光射孔工藝（英）

[加入收藏][字號:大中小] [時間:2009-11-03 全球石油網(wǎng) 關(guān)注度:0]

摘要:簡介：EXPEC 高級研究中心和哈里伯頓公司聯(lián)合研發(fā)出一套新型的激光射孔技術(shù)，引起業(yè)內(nèi)關(guān)注。沙特阿美公司第一個試用該項(xiàng)技術(shù)進(jìn)行“現(xiàn)場激光”射孔作業(yè)，與傳統(tǒng)射孔工藝相比，地層傷害確實(shí)大為降低。激光射孔法能消除傳統(tǒng)方法造成的地層壓縮傷害，保證孔...

簡介：EXPEC 高級研究中心和哈里伯頓公司聯(lián)合研發(fā)出一套新型的激光射孔技術(shù)，引起業(yè)內(nèi)關(guān)注。沙特阿美公司第一個試用該項(xiàng)技術(shù)進(jìn)行“現(xiàn)場激光”射孔作業(yè)，與傳統(tǒng)射孔工藝相比，地層傷害確實(shí)大為降低。激光射孔法能消除傳統(tǒng)方法造成的地層壓縮傷害，保證孔壁無壓縮變形，大大增強(qiáng)產(chǎn)液的效率。
The EXPEC Advanced Research Center (EXPEC ARC) and Halliburton have joined forces to develop a novel perforation method using laser technology, and the industry is taking notice. Saudi Aramco is the first production company to test the “in-situ lasing” method, which promises much less formation damage compared to conventional perforation techniques.

In completing a gas or oil well, perforating a well is an essential step for production of hydrocarbon fluids from the reservoir rock into the wellbore and onward to the surface. Perforations are holes made through the steel casing wall and cement into the rock formation which permit hydrocarbon to flow into the well. Current industry techniques employ explosive charges to create the perforations, causing compaction in the rock and reducing the ability of the hydrocarbons to easily flow into the well.

　A laboratory core sample shows the fractures resulting from the in-situ lasing perforation process.

The in-situ lasing method avoids such damage to the rock formation in that no compaction is created. A high-energy laser beam is aimed into the formation, which vaporizes the rock and creates a perforation with a permeable wall surface, EXPEC ARC states.

Laboratory results have demonstrated that laser perforation generates thermal stresses that fracture a well’s surrounding rock, thus increasing permeability around the perforations and facilitating easier inflow of hydrocarbons. EXPEC ARC states that an immediate application of laser perforation includes facilitating hydraulic fracturing in openhole horizontal wells (oriented fracturing), which can greatly enhance the wells’ production capability.

“The implementation of this innovative technology will open the door for significant applications in our oil and gas industry, furthering our major goals of reducing costs and increasing production,” said Mohammed Y. Al-Qahtani, executive director of Petroleum Engineering and Development for Saudi Aramco.

“This successful laboratory laser perforation of casing and rock samples has brought us closer to deploying laser energy in situ for well perforation and fracture initiation,” said Nabeel S. Habib, Saudi Aramco’s Production Technology Team chief technologist. “This in-situ laser perforation will also set the groundwork for further research and applications in petroleum engineering, including laser drilling.”

楊寶劍是全球石油網(wǎng)的高級技術(shù)編輯，在石油技術(shù)資訊行業(yè)有八年的學(xué)識和經(jīng)驗(yàn)。他源源不斷地提供石油行業(yè)全球最新的技術(shù)創(chuàng)新、研發(fā)成果、現(xiàn)場應(yīng)用情況等信息。如果你對“新技術(shù)新產(chǎn)品”的內(nèi)容有任何問題或建議，請聯(lián)系楊寶劍編輯 +86 10-58236512 Email：allenyo@zhenweiexpo.com 歡迎您提供手中的最新技術(shù)文章！