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| Performance influence in submersible pump with different diffuser inlet widths |
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sxndjs(Ðľ²_ÒÀÈ»´ú·¢): ½ð±Ò+5, ¸ÐлӦÖú 2018-03-30 09:11:43
Ðľ²_ÒÀÈ»: LS-EPI+1, ¸ÐлӦÖú 2018-03-30 09:11:52
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sxndjs(Ðľ²_ÒÀÈ»´ú·¢): ½ð±Ò+5, ¸ÐлӦÖú 2018-03-30 09:11:43
Ðľ²_ÒÀÈ»: LS-EPI+1, ¸ÐлӦÖú 2018-03-30 09:11:52
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Performance influence in submersible pump with different diffuser inlet widths ×÷Õß:Wei, QS (Wei, Qingshun)[ 1,2 ] ; Sun, XH (Sun, Xihuan)[ 1 ] ADVANCES IN MECHANICAL ENGINEERING ¾í: 9 ÆÚ: 1 ÎÄÏ׺Å: 1687814016683354 DOI: 10.1177/1687814016683354 ³ö°æÄê: JAN 2017 ²é¿´ÆÚ¿¯Ó°ÏìÁ¦ ÕªÒª The diffuser inlet width is a key geometric parameter that affects submersible pump performance. On the basis of diffuser characteristic curve analyses, diffusers with different inlet widths and the same impeller were equipped to construct a submersible pump model through the use of AutoCAD software. The performance curves of the submersible pump, with six diffuser inlet widths, were obtained using computational fluid dynamics method. Simultaneously, the simulation results were tested with the experimental method presented in this article. The results show that the optimum value of the inlet width (b(3)=50 mm) is larger than the experience-based one. With an increase in the inlet width, the optimum operating point of a submersible pump offsets to a larger flow rate. When the guide blade inlet width is approximately 40-55 mm, the submersible pump efficiency is relatively high, approximately 75.9%-83.7% capacity, and the flow rate is approximately 105-135m(3)/h. The numerical results of submersible pump performance are higher than those of the test results; however, their change trends have an acceptable agreement with each other. The practical significance is supplied by changing the inlet width of the diffuser to expand the scope of use. ¹Ø¼ü´Ê ×÷Õ߹ؼü´Ê:Submersible pump; diffuser; inlet width; performance; computational fluid dynamics KeyWords Plus:CENTRIFUGAL-PUMP; BLADE DESIGN; FLOW ×÷ÕßÐÅÏ¢ ͨѶ×÷ÕßµØÖ·: Sun, XH (ͨѶ×÷Õß) ÏÔʾ¸ü¶à Taiyuan Univ Technol, Coll Water Resource Sci & Engn, 79 Ying Ze St, Taiyuan, Peoples R China. µØÖ·: ÏÔʾ¸ü¶à [ 1 ] Taiyuan Univ Technol, Coll Water Resource Sci & Engn, 79 Ying Ze St, Taiyuan, Peoples R China ÏÔʾ¸ü¶à [ 2 ] Shanxi Agr Univ, Coll Urban & Rural Construct, Jinzhong, Peoples R China µç×ÓÓʼþµØÖ·:sunxihuan@tyut.edu.cn »ù½ð×ÊÖúÖÂл »ù½ð×ÊÖú»ú¹¹ ÊÚȨºÅ National Natural Science Foundation of China 51179116 Shanxi Provincial Natural Science Foundation of China 201601D102045 ²é¿´»ù½ð×ÊÖúÐÅÏ¢ ³ö°æÉÌ SAGE PUBLICATIONS LTD, 1 OLIVERS YARD, 55 CITY ROAD, LONDON EC1Y 1SP, ENGLAND Àà±ð / ·ÖÀà Ñо¿·½Ïò:Thermodynamics; Engineering Web of Science Àà±ð:Thermodynamics; Engineering, Mechanical ÎÄÏ×ÐÅÏ¢ ÎÄÏ×ÀàÐÍ:Article ÓïÖÖ:English Èë²ØºÅ: WOS:000391727400008 ISSN: 1687-8140 ÆäËûÐÅÏ¢ IDS ºÅ: EH4FQ Web of Science ºËÐĺϼ¯ÖÐµÄ "ÒýÓõIJο¼ÎÄÏ×": 22 Web of Science ºËÐĺϼ¯ÖÐµÄ "±»ÒýƵ´Î": 0 |
2Â¥2018-03-17 12:38:32
