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Numerical simulation and optimization of structural parameters of jet-pulse tee |
XU Shengrong, WANG Xinkun*, XIAO Siqiang, FAN Erdong |
National Research Center of Pumps, Jiangsu University, Zhenjiang, Jiangsu 212013, China |
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Abstract Based on CFX technology, the internal structure of jet pulse tee was designed in this paper. Firstly, the stable oscillation range of the jet pulse tee was obtained by Control Variates. The design range of the key structural parameters was as follows: the split distance was 20-45 mm, the potential difference was 1.1-2.1 mm and the side wall angel was 6 ?-16 ?. The four factors and three levels orthogonal was designed within the scope of the structure, four factors were split distance ratio, side wall angel, potential difference ratio and depth-to-width ratio and three levels were pulse frequency, pressure amplitude and flow amplitude. The influencing factors in decreasing order of importance and optimal design was obtained. The simulation results show that the pulse frequency of the optimal model increased 0-2.5 Hz and the pressure amplitude increased 0-20 kPa by comparing with the ordinary model. The hydraulic performance test of the common tee and the jet pulse tee was carried out. The pulse frequency of the jet pulse tee was 2.0-4.0 Hz which was smaller than the simulation results, and the pressure amplitude was 17-53 kPa which was larger than the simulation results. Compared with the common tee, the flow rate of the jet pulse tee outlet was larger under different pressure conditions, which indicates that the jet pulse tee can provide stable pulse flow.
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Received: 05 July 2017
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[1]袁寿其,李红,王新坤. 中国节水灌溉装备发展现状、问题、趋势与建议[J]. 排灌机械工程学报,2015,33(1):78-92. YUAN Shouqi, LI Hong, WANG Xinkun. Status, problems, trends and suggestions for water-saving irrigation equipment in China[J]. Journal of drainage and irriga-tion machinery engineering, 2015,33(1):78-92.(in Chinese)[2]SANCHEZ I, FACI J M, ZAPATA N. The effects of pressure, nozzle diameter and meteorological conditions on the performance of agricultural impact sprinklers[J]. Agricultural water management, 2011,102(1):13-24.[3]刘芳婷,范文波,张金玺,等. 膜下滴灌棉田土壤呼吸特征及其影响因素[J]. 排灌机械工程学报,2018,36(8):767-772. LIU Fangting, FAN Wenbo, ZHANG Jinxi, et al. Soil respiration characteristics and its influencing factors in cotton fields under mulched drip irrigation[J]. Journal of drainage and irrigation machinery engineering, 2018,36(8):767-772.(in Chinese)[4]孙永胜,张新燕. 低压地面滴灌水力特性研究进展[J]. 水利与建筑工程学报, 2011,9(3):8-13. SUN Yongsheng, ZHANG Xinyan. Progress of research on hydraulic characteristics of surface drip-irrigation with low pressure[J]. Journal of water resources and architectural engineering, 2011,9(3):8-13.(in Chinese)[5]郭霖,白丹,王新端,等. 双向对冲流滴灌灌水器水力性能与消能效果[J]. 农业工程学报,2016,32(17):77-82. GUO Lin, BAI Dan, WANG Xinrui, et al. Hydraulic performance and energy dissipation effect of two-ways mixed flow emitter in drip irrigation[J]. Transactions of the CSAE, 2016, 32(17):77-82.(in Chinese)[6]董文楚. 意大利的脉冲式滴灌系统[J]. 节水灌溉,1979(1):65-66. DONG Wenchu. Pulse drip irrigation system in Italy[J]. Water saving irrigation, 1979(1):65-66.(in Chinese)[7]王庆安. 脉冲滴灌系统结构设计与工作原理[J]. 节水灌溉,2001(4):36-37. WANG Qinan. Structure design and working principle of Pulse drip irrigation system[J]. Water saving irrigation, 2001(4):36-37.(in Chinese)[8]王新坤. 射流振荡三通:CN102861679A[P]. 2013-01-09.[9]杨玉超. 射流脉冲三通振荡特性影响因素研究[D]. 镇江:江苏大学,2016.[10]王新坤,肖思强,樊二东,等. 滴灌毛管首部射流脉冲三通水力特性试验研究[J]. 农业工程学报,2017,33(12):116-121. WANG Xinkun, XIAO Siqiang, FAN Erdong, et al. Hydraulic performance experiment of lateral pipe jet-pulse tee[J]. Transactions of the CSAE, 2017,33(12):116-121.(in Chinese)[11]徐继初. 生物统计及试验设计[M]. 北京:农业出版社,1992.[12]王雪豹,潘中永,朱嘉炜. 对旋轴流式喷水推进器内部流动数值模拟与分析[J]. 江苏科技大学学报(自然科学版),2017,31(5):605-611. WANG Xuebao, PAN Zhongyong, ZHU Jiawei. Numeri-cal research on internal flow characteristics of contra-rotating water-jet propellers[J]. Journal of Jiangsu University of Science and Technology(natural science edi-tion), 2017,31(5):605-611.(in Chinese)[13]杨剑秋,王延荣. 基于正交试验设计的空心叶片结构优化设计[J]. 航空动力学报,2011,26(2):376-384. YANG Jianqiu, WANG Yanrong. Structural optimization of hollow fan blade based on orthogonal experimental design[J]. Journal of aerospace power, 2011,26(2):376-384.(in Chinese)[14]COANDA H. Device for deflecting a stream of elastic fluid projected into an elastic fluid: US 2052869[P]. 1936-09-01.[15]许鹏,王新坤,高世凯,等. 射流振荡三通与滴灌毛管脉冲初步试验研究[J]. 节水灌溉,2014(3):1-4,8. XU Peng, WANG Xinkun, GAO Shikai, et al. Preliminary test of jet oscillation tee and pulse flow in drip irrigation lateral pipe[J]. Water saving irrigation, 2014(3):1-4,8.(in Chinese)[16]高世凯. 射流振荡三通与滴灌毛管脉冲特性研究[D]. 镇江: 江苏大学,2013.[17]曹卫东,刘光辉,刘冰. 两级离心泵径向导叶水力优化[J]. 排灌机械工程学报,2014,32(8):663-668. CAO Weidong, LIU Guanghui, LIU Bing. Hydraulic optimization of radical guide vanes in two-stage centrifugal pump[J]. Journal of drainage and irrigation machinery engineering, 2014,32(8):663-668.(in Chinese) |
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