西南石油大学学报(自然科学版) ›› 2017, Vol. 39 ›› Issue (3): 165-172.DOI: 10.11885/j.issn.1674-5086.2015.06.14.02

• 石油机械与油田化学 • 上一篇    下一篇

基于奇点分布法的涡轮钻具叶型设计

龚彦1, 张晓东1, 张也2, 李一岚1, 张津3   

  1. 1. 西南石油大学机电工程学院, 四川 成都 610500
    2. 中国石化石油工程机械有限公司, 湖北 荆州 434024;
    3. 宝石机械成都装备制造分公司, 四川 成都 610500
  • 收稿日期:2015-06-14 出版日期:2017-06-01 发布日期:2017-06-01
  • 通讯作者: 龚彦,E-mail:gongyan0101@163.com
  • 作者简介:龚彦,1986年生,男,汉族,四川乐山人,实验师,硕士,主要从事石油机械类实验教学及涡轮钻具的设计,测试等研究工作。E-mail:gongyan0101@163.com;张晓东,1959年生,男,汉族,重庆武隆人,教授,硕士,主要从事油气装备的教学及科研工作。E-mail:zxd123420@126.com;张也,1988年生,男,重庆武隆人,助理工程师,硕士,主要从事油气井钻完井装备的研究。E-mail:79018324@qq.com;李一岚,1988年生,女,四川达州人,博士研究生,主要从事油气钻采装备CFD技术与优化算法研究。E-mail:101577137@qq.com;张津,1986年生,男,四川南充人,工程师,主要从事油气装备密封件研究。E-mail:252451824@qq.com
  • 基金资助:
    石油天然气装备教育部重点实验室开放基金(OGE201403-20);西南石油大学校级科技基金(2013XJZ011)

Turbodrill Blade Profile Design Based on the Singularity Distribution Method

GONG Yan1, ZHANG Xiaodong1, ZHANG Ye2, LI Yilan1, ZHANG Jin3   

  1. 1. School of Mechatronic Engineering, Southwest Petroleum University, Chengdu, Sichuan 610500, China;
    2. Petroleum Machinery Co. Ltd., SINOPEC, Jingzhou, Hubei 434024, China;
    3. Chengdu Equipment Manufacturing Branch Company, Baoji Oilfield Machinery Co. Ltd., Chengdu, Sichuan 610500, China
  • Received:2015-06-14 Online:2017-06-01 Published:2017-06-01

摘要: 在高速及小直径涡轮钻具的叶型设计中,采用常规方法难得到令人满意的叶型,而采用奇点分布法来设计涡轮钻具叶型是值得尝试的。根据奇点分布法的设计流程,首先计算了涡轮钻具叶栅的叶片数、绕翼型环量、无穷远处均匀来流速度。其次,选取环量密度分布规律,设计了涡轮钻具的叶型骨线,并采用六次多项式对叶型骨线进行光滑。再次,根据翼型库中翼型的表达方式,研究了沿叶型骨线加厚叶型的方法,得到了有厚叶型,并确定了厚度圆与叶片吸力面和压力面型线的切点计算方法,提供了叶片在制造时的必需坐标点。最后,根据工程数据,设计了某型涡轮钻具的叶型,采用CFD软件对其叶型进行了流场仿真。仿真结果表明叶型性能优良,证明了奇点分布法在涡轮钻具叶型设计中的可行性,特别是对设计高速涡轮钻具更是一种行之有效的方法。

关键词: 涡轮钻具, 叶型, 奇点分布法, 叶型骨线, 叶型加厚

Abstract: In terms of blade profile design, using conventional methods for high-speed and small-diameter turbodrills may be challenging in obtaining a satisfactory blade profile. However, the blade profile design for turbodrills using the singularity distribution method is worth pursuing. According to the design process, the number of turbodrill cascade blades, circulation around the airfoil, and velocity of the uniform inflow at infinity should first be calculated. The distribution pattern of the circulation density is then identified. Subsequently, the blade camber line of the turbodrill is designed and smoothened using a sextic polynomial. Moreover, the approach to thicken the blade profile along the blade camber line is investigated in accordance with the airfoil representation methods in the airfoil base, thereby obtaining a thickened blade profile. In addition, the method to calculate the tangent points between the thickened circle and the profile lines of the blade suction and pressure surfaces is determined to provide the coordinates required for blade manufacturing. Finally, the blade profile for a certain type of turbodrill is designed based on engineering data, and the computational fluid dynamics software is employed to simulate its flow field. The simulation results demonstrate the excellent performance of the designed blade profile, which proves the feasibility and effectiveness of the singularity distribution method in the blade profile design for turbodrills, particularly with respect to highspeed turbodrills.

Key words: turbodrill, blade profile, singularity distribution method, blade camber line, blade profile thickening

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