CAJ | 학술논문

为了减少150 mm口径旋进旋涡流量计的压损，提出了增加流量计起旋器导程和壳体喉部直径两种方案，在120～2100 m3·h-1流量范围内，采用数值模拟和实验的方法研究了改进前后旋进旋涡流量计的压损特性与仪表系数，并对旋进旋涡流量计中压电传感器所在截面的内部流动特性进行了分析。通过数值模拟研究发现：两种方案均能降低流量计压损，但流量计的仪表系数均降低，不利于小流量的测量，且仪表系数精确度也有所变化。若仅考虑降低压损，同时增加导程和喉部直径比仅增加导程好。最后在音速喷嘴装置上对两种方案进行了实验，发现实验数据和数值计算结果变化趋势一致，达到了对流量计参数优化提高流量计性能的目的。
위료감소150 mm구경선진선와류량계적압손，제출료증가류량계기선기도정화각체후부직경량충방안，재120～2100 m3·h-1류량범위내，채용수치모의화실험적방법연구료개진전후선진선와류량계적압손특성여의표계수，병대선진선와류량계중압전전감기소재절면적내부류동특성진행료분석。통과수치모의연구발현：량충방안균능강저류량계압손，단류량계적의표계수균강저，불리우소류량적측량，차의표계수정학도야유소변화。약부고필강저압손，동시증가도정화후부직경비부증가도정호。최후재음속분취장치상대량충방안진행료실험，발현실험수거화수치계산결과변화추세일치，체도료대류량계삼수우화제고류량계성능적목적。
In order to reduce the pressure loss of 150-caliber swirl meter, two programs of increasing the lead of swirler and the throat diameter of casing were adopted to improve the performance of swirl meter. In the flow range from 120 m3·h-1 to 2100 m3·h-1, numerical simulation and experiment were conducted to study the pressure loss characteristics and meter factor of the swirl meter before and after improvement, and internal flow characteristics of the section where piezoelectric sensors were located was analyzed. Through numerical simulation it was found that these two programs could reduce the pressure loss of swirl meter, but meter factor decreased with degraded precision. Small flow measurement could not be applicable because of the decrease of meter factor. If only considering the factor of pressure loss, program B (increasing the lead and the throat diameter) was better than the program A (only increasing the lead). The experiments were performed on sonic nozzle device to verify simulation results of two programs. The experimental results of pressure loss and meter factor basically agreed with numerical simulation results.