摘要
为提高射流自吸泵效率,该文选择关键结构参数射流器喉管直径、射流器出口直径、叶轮出口宽度和叶片数作为目标因素,设计四因素三水平正交试验,共9组试验。运用数值分析软件提供的湍流模型对各方案进行数值计算。通过极差分析确定性能最优参数组合,其中对效率影响最主要因素为喉管直径。以喉管直径为优化目标设计单一变量试验,分别在小流量点、额定流量点及大流量点进行数值计算,通过数据拟合得到正交试验最优参数组合在不同流量下以喉管直径为自变量的扬程、效率方程式,运用极值运算及加权平均得到最优喉管直径。试验结果表明:相比原型泵,优化模型在额定流量点效率提高约5%。该研究为同类泵的优化提供了一种较可靠的试验设计及数据处理方法。
In order to optimize the JSW10 type flow-ejecting self-priming pump, 4 key structural parameters are selected as target factors, which are outlet width of the impeller (FactorA), number of blades (FactorB), throat diameter of ejector (Factor C), and outlet diameter of ejector (FactorD), and the orthogonal experiment is designed with 4 factors and 3 levels, a total of 9 tests. The choice of structural parameters is mainly dependent on related research and the feasibility of parameter controlling in the tests is considered. Due to the complex geometry of the flow channel, the unstructured mesh which has good adaptability is adopted. Based on the grid independence, the numerical results tend to be stable when the grid number is above 3 million, and in this paper the mesh number of tests is between 3.6 million and 4 million. The whole flow field is simulated by the RNGk-ε model provided by ANSYS CFX, which turns out that the numerical results match well with the experiment data. Therefore, the numerical simulation can be used to predict the performance of the pump. We can get efficiency curves in different tests by numerical calculation and obtain the optimal level combination of the 9 tests. Range analysis at designed flow point is employed to get the order of each factor’s impact on the performance and to obtain the optimal level of each factor from the 3 levels. The most influential parameter is FactorC i.e. the inlet throat diameter of ejector, and the optimal parameter level combination isA1B1C3D1 (the figure represents the level). Therefore we design the single variable test with FactorCas the optimization target, and perform the numerical calculation at low flow point, rated flow point and high flow point respectively, and the quadratic equation of head and throat diameter at different flow point is obtainedby data fitting with MATLAB. We gain the optimal level of the inlet throat diameter of the ejectorby function extreme value operation considering the operating conditions. Besides we get the optimal valu
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2016年第S2期16-21,共6页
Transactions of the Chinese Society of Agricultural Engineering
基金
国家自然科学基金(51379091
51409127)
江苏省高校优势学科建设工程二期资助项目(PAPD)
关键词
泵
优化
计算机仿真
射流自吸泵
正交试验
数据拟合
pumps
optimization
computer simulation
flow-ejecting self-priming pump
orthogonal test
data fitting
