射流泵水力设计软件开发Development of Software About Jet Pumps' Hydraulic Design
龙新平,吕桥,肖龙洲
LONG Xin-ping1,2,LV Qiao1
摘要(Abstract):
结合射流泵国内外优秀水力模型,利用VB.NET开发出了一套射流泵水力设计软件。该软件由欢迎窗体、用户管理、基础理论、水力设计、帮助和链接等模块构成。基础理论部分包括射流泵的基本原理、性能参数、性能曲线和结构组成,为用户提供了较为全面的射流泵的基础理论知识;水力设计提供了设计界面和AutoCAD链接,方便计算和设计。用户在进行水力设计时,除了得到射流泵的主要结构尺寸,还可以绘出射流泵的特性曲线。主界面集输入、输出和操作按钮于一体,操作方便。使用者可以不必花大量时间去研究射流泵的理论和模型,只需要输入初参数就可以得到自己想要的射流泵的尺寸,大大缩短了设计周期。
The general design method of jet pumps is based on domestic and foreign excellent hydraulic models.The software is designed by VB.NET.This software consists of some modules,which include welcome form,user management,the basic theory,the hydraulic design,help and links etc.The basic theory of the jet pump including basic principle,performance parameters,performance curve and structure,provides a comprehensive of the basic theory of knowledge to users;Hydraulic design provides design interface and AutoCAD links,it is very convenient for calculation and design.In hydraulic design,users can get jet pumps' main structure sizes,and also can draw jet pumps' characteristic curve.The interface set the input and output and the operation of the button in an organic whole.Users don't need to switch back and forth,the operation is very convenient.Users do not have to spend a lot of time to study the theories and models of the jet pump.You only need to enter the initial parameter of the jet pump to get the size.It greatly reduces the design cycle.
关键词(KeyWords):
射流泵;水力设计;VB.NET;汽蚀
jet pumps;hydraulic design;VB.NET;cavitation corrosion
基金项目(Foundation):
作者(Author):
龙新平,吕桥,肖龙洲
LONG Xin-ping1,2,LV Qiao1
参考文献(References):
- [1]陆宏圻.喷射理论及应用[M].武汉:武汉大学出版社,2004.
- [2]Long X P,Yao H,Zhao J.Investigation on mechanismof critical cavitating flow in liquid jet pumps under op-erating limit[J].Interna-tional Journal of Heat MassTransfer,2009,52(10):2415-2420.
- [3]Guillaume D W.Improving the efficiency of a jet pumpusing an elliptical nozzle[J].Review of Scientific In-struments,1999,12(70):4727-4729.
- [4]Winoto S H.Efficiency of Jet Pumps[J].Journal ofHydraulic Engineering,2000,126(2):150-156.
- [5]Bogey C.Influence of nozzle-exit boundary-layerconditions on the flow and acoustic fields of initiallylaminar jets[C].Cambri-dge University Press,2010,(663):507-538.
- [6]Long X,et al.Influence of nozzle exit tip thickness onthe performance and flow field of jet pump[J].Journalof Mechanical Science and Technology,2008,10(22):1959-1965.
- [7]龙新平.射流泵最佳喉嘴距的数值模拟[J].核动力工程,2008,29(1):35-38.
- [8]龙新平,鄢恒飞.喉管长度对环形射流泵性能影响的数值模拟[J].排灌机械学报,2010,28(3):198-201.
- [9]龙新平,王丰景.喷射泵内部流动模拟与其扩散角优化[J].核动力工程,2011,32(1):53-57.
- [10]王晖,赵艳铎.Visual Basic.NET实用编程百例[M].北京:清华大学出版,2004.
- [11]张晋西.Visual Basic.NET二次开发AutoCAD范例精解[M].北京:清华大学出版社,2004.
- [12]恽强龙,向清江,李红,等.高比转数蜗壳式混流泵的设计与试验[J].流体机械,2011,39(12):8-11.
- [13]陈凤官,綦耀光,刘新福,等.新型环空射流泵基本特性的理论研究[J].流体机械,2011,39(2):23-27.
- [14]葛研军,葛强,阳俊.液气射流泵喉嘴距数值模拟及其最优范围确定[J].流体机械,2012,40(4):29-32.