岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2013年
z2期
3448-3454
,共7页
张宁%王明洋%肖军华%范鹏贤%李杰%李术才%张强勇
張寧%王明洋%肖軍華%範鵬賢%李傑%李術纔%張彊勇
장저%왕명양%초군화%범붕현%리걸%리술재%장강용
岩石力学%改进的一次二阶矩法%深埋盐岩储气库%片帮破坏%风险%失效概率
巖石力學%改進的一次二階矩法%深埋鹽巖儲氣庫%片幫破壞%風險%失效概率
암석역학%개진적일차이계구법%심매염암저기고%편방파배%풍험%실효개솔
rock mechanics%modified first-order second-moment method%deep salt rock underground gas storage%slabbing failure%risk%failure probability
片帮破坏是深埋盐岩地下储气库主要破坏模式之一,为研究盐岩地下储气库片帮风险等级,基于改进的一次二阶矩法失效概率计算方法,依据已有的破坏准则确立盐岩片帮的功能函数,建立盐岩地下储气库片帮风险失效概率计算模型,通过ABAQUS的UVARM模块对该模型进行二次开发,并在江苏金坛盐岩地下储气库进行应用。通过对金坛储气库单腔低压多腔运营时一腔失压的片帮风险概率计算,结果表明,运营气压高于6 MPa时失效概率可达地下储气库安全要求,矿柱间距大于1.5倍洞径时某腔失压对其它储腔造成的风险很小,计算结果与金坛储气库实际情况相符,表明该方法具有一定的实际应用价值。
片幫破壞是深埋鹽巖地下儲氣庫主要破壞模式之一,為研究鹽巖地下儲氣庫片幫風險等級,基于改進的一次二階矩法失效概率計算方法,依據已有的破壞準則確立鹽巖片幫的功能函數,建立鹽巖地下儲氣庫片幫風險失效概率計算模型,通過ABAQUS的UVARM模塊對該模型進行二次開髮,併在江囌金罈鹽巖地下儲氣庫進行應用。通過對金罈儲氣庫單腔低壓多腔運營時一腔失壓的片幫風險概率計算,結果錶明,運營氣壓高于6 MPa時失效概率可達地下儲氣庫安全要求,礦柱間距大于1.5倍洞徑時某腔失壓對其它儲腔造成的風險很小,計算結果與金罈儲氣庫實際情況相符,錶明該方法具有一定的實際應用價值。
편방파배시심매염암지하저기고주요파배모식지일,위연구염암지하저기고편방풍험등급,기우개진적일차이계구법실효개솔계산방법,의거이유적파배준칙학립염암편방적공능함수,건립염암지하저기고편방풍험실효개솔계산모형,통과ABAQUS적UVARM모괴대해모형진행이차개발,병재강소금단염암지하저기고진행응용。통과대금단저기고단강저압다강운영시일강실압적편방풍험개솔계산,결과표명,운영기압고우6 MPa시실효개솔가체지하저기고안전요구,광주간거대우1.5배동경시모강실압대기타저강조성적풍험흔소,계산결과여금단저기고실제정황상부,표명해방법구유일정적실제응용개치。
Slabbing failure is a major failure mode in deep salt rock underground gas storages. In order to research the risk level of the salt rock gas storage,a failure risk probability calculation method of the deep salt rock underground gas storage side falling was established based on the modified first-order second-moment method, according to the existing failure theory. Secondary development of the method was operated using ABAQUS platform in the part of UVARM,and the slabbing failure probability of the Jintan salt rock underground gas storage was calculated with this method. The failure probability under the low pressure operating conditions of a single storage was calculated,and multi-storage cavity failure probability caused by pressure loss of single cavern was also calculated. The results illustrate that,if the pressure of storage is higher than 6 MPa,failure probability would be less than the gas storage safety requirements. If the space of pillar is appropriate,individual cavern cavity loss pressure would cause little effect on the other cavern. The results are well in accordance with the practice of Jintan gas storage. It′s shown that this method has practical value in engineering application.