科学技术与工程
科學技術與工程
과학기술여공정
Science Technology and Engineering
2015年
29期
121-123
,共3页
李凯%张浩%邵振滨%钟颖
李凱%張浩%邵振濱%鐘穎
리개%장호%소진빈%종영
气测渗透率法%筇竹寺组%页岩%盐敏%行业标准法%储层损害
氣測滲透率法%笻竹寺組%頁巖%鹽敏%行業標準法%儲層損害
기측삼투솔법%공죽사조%혈암%염민%행업표준법%저층손해
gas permeability method%Qiongzhusi Formation%shale%salt sensitivity%the industrial standard method%reservoir damage
孔喉致密、黏土矿物含量高使得页岩气层具有严重的潜在盐敏性损害特征。用现行行业标准( SY/T 5358—2010)评价页岩盐敏性时,存在对实验设备要求高、测试流程长、实验误差大等问题。提出气测渗透率法评价页岩盐敏性,通过比较岩心经液体污染前后气体渗透率变化来反映盐敏性。该方法不需计算岩心出口端流量,从而解决了页岩液体渗透率过低而引起的测试周期长、实验误差大等常规评价问题。此外,行业标准法实验采用液体为实验介质,而气体渗透能力是影响页岩气层产能的主要参数,因此气测渗透率法更符合气层生产实际。盐敏性实验研究结果表明,该储层盐敏指数为74.51~82.80,盐敏性强,施工过程中应尽量避免或者减少碱敏损害。同时该实验方法为后续以气测渗透率为中心的流体敏感性实验评价打下了基础。
孔喉緻密、黏土礦物含量高使得頁巖氣層具有嚴重的潛在鹽敏性損害特徵。用現行行業標準( SY/T 5358—2010)評價頁巖鹽敏性時,存在對實驗設備要求高、測試流程長、實驗誤差大等問題。提齣氣測滲透率法評價頁巖鹽敏性,通過比較巖心經液體汙染前後氣體滲透率變化來反映鹽敏性。該方法不需計算巖心齣口耑流量,從而解決瞭頁巖液體滲透率過低而引起的測試週期長、實驗誤差大等常規評價問題。此外,行業標準法實驗採用液體為實驗介質,而氣體滲透能力是影響頁巖氣層產能的主要參數,因此氣測滲透率法更符閤氣層生產實際。鹽敏性實驗研究結果錶明,該儲層鹽敏指數為74.51~82.80,鹽敏性彊,施工過程中應儘量避免或者減少堿敏損害。同時該實驗方法為後續以氣測滲透率為中心的流體敏感性實驗評價打下瞭基礎。
공후치밀、점토광물함량고사득혈암기층구유엄중적잠재염민성손해특정。용현행행업표준( SY/T 5358—2010)평개혈암염민성시,존재대실험설비요구고、측시류정장、실험오차대등문제。제출기측삼투솔법평개혈암염민성,통과비교암심경액체오염전후기체삼투솔변화래반영염민성。해방법불수계산암심출구단류량,종이해결료혈암액체삼투솔과저이인기적측시주기장、실험오차대등상규평개문제。차외,행업표준법실험채용액체위실험개질,이기체삼투능력시영향혈암기층산능적주요삼수,인차기측삼투솔법경부합기층생산실제。염민성실험연구결과표명,해저층염민지수위74.51~82.80,염민성강,시공과정중응진량피면혹자감소감민손해。동시해실험방법위후속이기측삼투솔위중심적류체민감성실험평개타하료기출。
Dense pore throats and high content of clay minerals cause serious potential sensitivity damage to shale gas reservoirs .However , during industry standard method experiments , big errors appear since it is hard to measure the liquid flow for the ultra-low liquid permeability and ultra-slow movement of liquid in shale cores .A new way based on gas permeability method is raised in this article to evaluate liquid sensitivity of shale .It is not necessary to measure fluid flow rate at outlet of the core holder , which reduce test period and experimental error caused by ultra-low fluid permeability .Besides , liquid is adopted during industrial standard tests , while gas meth-od conforms more to the fact .Experimental results indicate that salt sensitivity of shales from Qiongzhusi formation is strong , and the experimental method lays foundation to evaluate other fluid sensitivity on the basis of gas permea -bility.
