This paper study on a JSW10 Self-priming jet pump, in order to improve the performance of the pump, using the method of orthogonal test design test[1-2]and selecting the ejector throat diameter D_1, outlet diameter of the diffusion tube D_2, the outlet width of impeller b_2, the number of blades z as the impact factors. Then design orthogonal test of four factors and three levels. Using the k-ε turbulence model provided by CFD on the whole flow field numerical calculation. According to the Q-H curves of the tests. Only judge by the standard of head, the optimal solution is test7, followed by test2; while if only judge by the efficiency test2 is the optimal scheme, test7 is the sub-optimal solution. Application analysis of range obtained that the best level combination for head curves is A1B1C3D1 and the best level combination for hydraulic efficiency is A1B1C3D1. Then through numerical results prove the correctness. Analyzing the test data at the rated flow point. Get the order of the factor affecting on head is C>D>B>A while the order on the efficiency is C>A>B>D. This analysis method has a certain reference value for the structure optimization of self-priming jet pumps to make ejector and centrifugal impeller fit perfect to improve the performance.
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机译:本文研究了JSW10自灌注喷射泵,以提高泵的性能,采用正交试验设计试验方法[1-2],并选择喷射器喉部直径D_1,扩散管的出口直径D_2 ,叶轮B_2的出口宽度,叶片Z的数量为冲击因子。然后设计四个因素和三个层面的正交测试。使用CFD提供的K-ε湍流模型在整个流场数值计算上。根据测试的Q-H曲线。只有头部标准判断,最佳解决方案是Test7,其次是Test2;虽然如果仅通过效率测试2判断是最佳方案,但Test7是次优溶液。范围的应用分析获得了头曲线的最佳水平组合是A1B1C3D1,液压效率的最佳水平组合是A1B1C3D1。然后通过数值结果证明了正确性。分析额定流量点的测试数据。获取影响头部的因子的顺序是C> D> B> A效率的顺序是C> A> B> D。该分析方法具有一定的参考值,用于自动喷射喷射泵的结构优化,使喷射器和离心叶轮适合完美,以提高性能。
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