重庆科技学院学报:自然科学版
重慶科技學院學報:自然科學版
중경과기학원학보:자연과학판
Journal of Chongqing University of Science and Technology:Natural Science Edition
2012年
4期
45-48
,共4页
冲蚀%气体钻井%腐蚀坑%计算流体动力学
遲蝕%氣體鑽井%腐蝕坑%計算流體動力學
충식%기체찬정%부식갱%계산류체동역학
erosion%gas drilling%corrosion pits%CFD
采用计算流体动力学方法建立高速气体冲蚀无刺孔钻杆接头和具有腐蚀坑的钻杆接头模型。无刺孔的钻杆接头内,只有钻杆内产生腐蚀坑后,流场才变为钻杆本体刺漏的主要影响因素之一;钻杆带有腐蚀坑时,其钻杆内的最大流速远大于无腐蚀坑钻杆内的最大流速;钻杆的穿刺及断裂主要是由于裂纹从钻杆内壁向外壁不断扩展的结果。
採用計算流體動力學方法建立高速氣體遲蝕無刺孔鑽桿接頭和具有腐蝕坑的鑽桿接頭模型。無刺孔的鑽桿接頭內,隻有鑽桿內產生腐蝕坑後,流場纔變為鑽桿本體刺漏的主要影響因素之一;鑽桿帶有腐蝕坑時,其鑽桿內的最大流速遠大于無腐蝕坑鑽桿內的最大流速;鑽桿的穿刺及斷裂主要是由于裂紋從鑽桿內壁嚮外壁不斷擴展的結果。
채용계산류체동역학방법건립고속기체충식무자공찬간접두화구유부식갱적찬간접두모형。무자공적찬간접두내,지유찬간내산생부식갱후,류장재변위찬간본체자루적주요영향인소지일;찬간대유부식갱시,기찬간내적최대류속원대우무부식갱찬간내적최대류속;찬간적천자급단렬주요시유우렬문종찬간내벽향외벽불단확전적결과。
Based on this,drill pipe sub of no acanthopore and drill pipe sub of corrosion pits model for drill pipe erosion of high-speed gas are established by use of the computational fluid dynamics (CFD) method.Through the analysis of the drill pipe subgas flow field ,the drill pipe sub velocity field ,some conclusions are drawn that the change of the flow field is not the main factors of the leak of drill pipe ontology in the drill pipe sub of no acanthopore,the change of the flow field become one of the main factors only when the drill pipe have corrosion pits.The maximum velocity of the drill pipe with corrosion pitsare is much larger than the drill pipe of no corrosion pit.The puncture and fracture of drill pipe are mainly due to the crack propagation from the drill pipe wall to the outside.
