| 主权项 |
一种采用长短叶片旋流泵水力设计方法,其特征在于,通过改变旋流泵叶轮叶片的设计参数的确定方法,改善旋流泵内部流动状况,提高旋流泵的无堵塞性、耐磨性以及运行可靠性,具体参数确定如下:A)叶轮外径叶轮外径的计算公式<img file="655525dest_path_image002.GIF" wi="176" he="104" />式中,<img file="878696dest_path_image004.GIF" wi="54" he="54" />—叶轮外径,<img file="209183dest_path_image006.GIF" wi="86" he="39" />;<img file="201410dest_path_image008.GIF" wi="73" he="60" />—外径系数,取<img file="224730dest_path_image010.GIF" wi="53" he="52" />=0.2061+0.00176<img file="466355dest_path_image012.GIF" wi="40" he="45" />,其中同步转速<img file="803796dest_path_image014.GIF" wi="207" he="68" />当同步转速<img file="650529dest_path_image016.GIF" wi="199" he="68" />以下时取<img file="985695dest_path_image010.GIF" wi="53" he="52" />= 0.5718‑0.000678<img file="dest_path_image017.GIF" wi="40" he="45" />;<img file="dest_path_image019.GIF" wi="38" he="54" />—重力加速度,<img file="dest_path_image021.GIF" wi="75" he="37" />;<img file="dest_path_image023.GIF" wi="40" he="57" />—水泵扬程,<img file="dest_path_image025.GIF" wi="51" he="39" />;<img file="dest_path_image027.GIF" wi="40" he="43" />—水泵转速,<img file="dest_path_image029.GIF" wi="89" he="72" />;B)叶片出口宽度叶片出口宽度计算公式<img file="dest_path_image031.GIF" wi="166" he="134" />式中,<img file="dest_path_image033.GIF" wi="56" he="72" />—叶片出口宽度,<img file="dest_path_image035.GIF" wi="75" he="36" />;<img file="822939dest_path_image037.GIF" wi="59" he="54" />—叶片出口宽度系数,当同步转速<img file="370595dest_path_image039.GIF" wi="207" he="68" />时取<img file="dest_path_image041.GIF" wi="417" he="64" />当同步转速<img file="dest_path_image043.GIF" wi="199" he="55" />以下时<img file="dest_path_image045.GIF" wi="387" he="64" />;<img file="dest_path_image047.GIF" wi="36" he="53" />—旋流泵流量,<img file="dest_path_image049.GIF" wi="77" he="74" />;<img file="dest_path_image051.GIF" wi="56" he="62" />—比转速;C)叶片厚度由实际测量数据统计后确定叶片厚度计算公式<img file="dest_path_image053.GIF" wi="323" he="66" /><img file="dest_path_image055.GIF" wi="316" he="122" />式中,<img file="dest_path_image057.GIF" wi="48" he="54" />—叶片顶部厚度,<img file="55523dest_path_image035.GIF" wi="75" he="36" />;<img file="dest_path_image059.GIF" wi="51" he="64" />—叶片根部厚度,<img file="656531dest_path_image035.GIF" wi="75" he="36" />;D)短叶片进口直径短叶片进口直径计算公式<img file="dest_path_image061.GIF" wi="363" he="56" />式中,<img file="dest_path_image063.GIF" wi="51" he="48" />—短叶片进口直径,<img file="669487dest_path_image035.GIF" wi="75" he="36" />;<img file="dest_path_image065.GIF" wi="62" he="51" />—短叶片进口直径系数,取<img file="dest_path_image067.GIF" wi="320" he="64" /><img file="dest_path_image069.GIF" wi="46" he="47" />—叶轮外径,<img file="83150dest_path_image035.GIF" wi="75" he="36" />;<i>D</i><sub>1</sub>—叶轮内径,<img file="435634dest_path_image035.GIF" wi="75" he="36" />;E)叶片包角叶片包角计算公式<img file="dest_path_image071.GIF" wi="339" he="62" /><img file="dest_path_image073.GIF" wi="324" he="61" /><img file="dest_path_image075.GIF" wi="412" he="127" />式中,<img file="dest_path_image077.GIF" wi="67" he="56" />—长叶片包角,<img file="dest_path_image079.GIF" wi="35" he="32" />;<img file="dest_path_image081.GIF" wi="69" he="55" />—短叶片包角,<img file="329248dest_path_image079.GIF" wi="35" he="32" />;F)短叶片偏置角<img file="dest_path_image083.GIF" wi="305" he="58" />式中,<img file="dest_path_image085.GIF" wi="56" he="62" />—短叶片偏置角,<img file="829499dest_path_image079.GIF" wi="35" he="32" />;G)叶片数<img file="dest_path_image087.GIF" wi="180" he="42" />取偶数,长叶片和短叶片各占一半;式中,<img file="dest_path_image089.GIF" wi="39" he="47" />—叶片数。 |
