传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2013年
8期
1173-1177
,共5页
方立德%张垚%王小杰%张万岭%庞丽丽
方立德%張垚%王小傑%張萬嶺%龐麗麗
방립덕%장요%왕소걸%장만령%방려려
内外管差压流量计%湿气%虚高%经典测量模型%数据融合
內外管差壓流量計%濕氣%虛高%經典測量模型%數據融閤
내외관차압류량계%습기%허고%경전측량모형%수거융합
inside and outside tube differential pressure flowmeter%wet gas%over-reading%classic measurement models%data fusion
针对湿气的在线不分离测量,课题组提出了一种新型内外管差压式流量计,针对该流量计在天津大学油、气、水三相流实验装置上进行了测试,实验压力定为0.1MPa和0.2MPa,选取了与本实验工况相近的经典湿气测量模型对其虚高值进行了预测,预测结果显示“Bizon模型冶预测效果最佳,但直接应用于内外管差压式流量计,测量误差仍不满足要求,因此,将理论分析与数据融合思想结合,进行了内外管差压流量计的湿气新测量模型拟合,建立湿气虚高值与其特性参数之间的非线性关系式。误差分析验证表明,新测量模型平均误差在1.6%以内,且误差波动性较小,比较稳定,能够满足工业生产中湿气的测量要求。
針對濕氣的在線不分離測量,課題組提齣瞭一種新型內外管差壓式流量計,針對該流量計在天津大學油、氣、水三相流實驗裝置上進行瞭測試,實驗壓力定為0.1MPa和0.2MPa,選取瞭與本實驗工況相近的經典濕氣測量模型對其虛高值進行瞭預測,預測結果顯示“Bizon模型冶預測效果最佳,但直接應用于內外管差壓式流量計,測量誤差仍不滿足要求,因此,將理論分析與數據融閤思想結閤,進行瞭內外管差壓流量計的濕氣新測量模型擬閤,建立濕氣虛高值與其特性參數之間的非線性關繫式。誤差分析驗證錶明,新測量模型平均誤差在1.6%以內,且誤差波動性較小,比較穩定,能夠滿足工業生產中濕氣的測量要求。
침대습기적재선불분리측량,과제조제출료일충신형내외관차압식류량계,침대해류량계재천진대학유、기、수삼상류실험장치상진행료측시,실험압력정위0.1MPa화0.2MPa,선취료여본실험공황상근적경전습기측량모형대기허고치진행료예측,예측결과현시“Bizon모형야예측효과최가,단직접응용우내외관차압식류량계,측량오차잉불만족요구,인차,장이론분석여수거융합사상결합,진행료내외관차압류량계적습기신측량모형의합,건립습기허고치여기특성삼수지간적비선성관계식。오차분석험증표명,신측량모형평균오차재1.6%이내,차오차파동성교소,비교은정,능구만족공업생산중습기적측량요구。
This paper focused on wet gas non separating measurement,work team has proposed a new type of the inner and outer tubes differential pressure flowmeter, wet gas experiment tested on oil-gas-water three phrase flow experiment platform in Tianjin University. The experiment pressures were set in 0. 1 MPa and 0. 2 MPa, work conditions of Bizon classic model were chosen as a condition similar to the experiment work condition and the predicted over-reading value was measured. The results showed the prediction of the “Bizon model” was the best choice. The measurement error can not satisfied the requirement if it applied directly on the inner and outer tubes dif-ferential pressure flowmeter. For these reasons, to relay on the principle of data fusion method, the non-linear relationship formula was established between wet gas over reading value and its characteristic parameters. Error analysis shows the average error of new measurement model is less than 1. 6%,error could keep stable. The new meas-urement model can fulfill the requirements of the measurement of the wet gas in the industrial production.