中国石油大学学报(自然科学版)
中國石油大學學報(自然科學版)
중국석유대학학보(자연과학판)
JOURNAL OF CHINA UNIVERSITY OF PETROLEUM(EDITION OF NATURAL SCIENCE)
2015年
3期
143-148
,共6页
陈思%王尊策%吕凤霞%何金钢
陳思%王尊策%呂鳳霞%何金鋼
진사%왕존책%려봉하%하금강
离散相模型%弹塑性压痕破裂理论%磨损%电潜泵%数值模拟
離散相模型%彈塑性壓痕破裂理論%磨損%電潛泵%數值模擬
리산상모형%탄소성압흔파렬이론%마손%전잠빙%수치모의
discrete phase model(DPM)%elastic-plastic indentation fracture theory%erosion%electric submersible pump%numerical simulation
基于离散相模型结合弹塑性压痕破裂理论对电潜泵叶轮磨损进行数值计算研究,对不同工况下的叶轮磨损进行分析,得到电潜泵叶轮的磨损规律,运用三坐标测量机对实际工作的电潜泵叶轮中存在的磨损情况进行测量,以实现对数值模拟结果的验证。结果表明:叶轮磨损加剧的颗粒粒径临界点是0.06~0.08 mm;磨损最严重的区域位于叶片凹面;转速、颗粒粒径增大均会加剧冲蚀磨损,导致磨损严重的区域由凹面中部的几个零散点向整个面扩展;数值模拟结果与验证结果吻合较好。
基于離散相模型結閤彈塑性壓痕破裂理論對電潛泵葉輪磨損進行數值計算研究,對不同工況下的葉輪磨損進行分析,得到電潛泵葉輪的磨損規律,運用三坐標測量機對實際工作的電潛泵葉輪中存在的磨損情況進行測量,以實現對數值模擬結果的驗證。結果錶明:葉輪磨損加劇的顆粒粒徑臨界點是0.06~0.08 mm;磨損最嚴重的區域位于葉片凹麵;轉速、顆粒粒徑增大均會加劇遲蝕磨損,導緻磨損嚴重的區域由凹麵中部的幾箇零散點嚮整箇麵擴展;數值模擬結果與驗證結果吻閤較好。
기우리산상모형결합탄소성압흔파렬이론대전잠빙협륜마손진행수치계산연구,대불동공황하적협륜마손진행분석,득도전잠빙협륜적마손규률,운용삼좌표측량궤대실제공작적전잠빙협륜중존재적마손정황진행측량,이실현대수치모의결과적험증。결과표명:협륜마손가극적과립립경림계점시0.06~0.08 mm;마손최엄중적구역위우협편요면;전속、과립립경증대균회가극충식마손,도치마손엄중적구역유요면중부적궤개령산점향정개면확전;수치모의결과여험증결과문합교호。
Based on discrete phase model and elastic-plastic indentation fracture theory, erosion in the electrical submersible pump impeller was numerically simulated. The effect of particle size and impeller speed on the erosion of the electrical sub-mersible pump impeller was predicted by a particle erosion model. In order to verify the results of numerical simulation, the erosion in an electrical submersible pump in operation was measured by the coordinate measuring machine. The results show that the critical diameter with the highest erosion rate is 0. 06-0. 08 mm. The erosion mainly occurs in the center of the con-cave surface of blade. With the increase of particle size and impeller speed, the erosion area will extend. The numerical sim-ulation results agree well with the testing results.
