Volume 48 Issue 2
Mar.  2022
Turn off MathJax
Article Contents
Article Navigation >  Journal of Mine Automation  > 2022  >  48(2): 119-124
LI Bingrui, LIU Na, INOUE Masahiro. Design of high precision mine ultrasonic anemometer[J]. Industry and Mine Automation, 2022, 48(2): 119-124. doi: 10.13272/j.issn.1671-251x.2021090012
Citation: LI Bingrui, LIU Na, INOUE Masahiro. Design of high precision mine ultrasonic anemometer[J]. Industry and Mine Automation, 2022, 48(2): 119-124. doi: 10.13272/j.issn.1671-251x.2021090012
shu

Design of high precision mine ultrasonic anemometer

doi: 10.13272/j.issn.1671-251x.2021090012

  • College of Safety and Environmental Engineering, Shandong University of Science and Technology, Qingdao 266500, China

  • Received Date: 2021-09-04
  • Rev Recd Date: 2022-02-13
    • Available Online: 2022-03-01
    Abstract
  • The minimum measured wind speed of the existing anemometer can not meet the requirements of precise wind measurement under the condition of low wind speed in mines. In order to solve this problem, based on the principle of ultrasonic time difference method wind speed measurement, a high-precision mine ultrasonic anemometer with low starting wind speed is designed. Two ultrasonic transmitting probes and two ultrasonic receiving probes are arranged alternately to form two ultrasonic propagation paths. The downwind and upwind propagation times of ultrasonic waves in a specific wind speed field are measured respectively, and the average wind speed between the transmitting probes and the receiving probes is solved by using the superposition effect of the propagation speed of ultrasonic waves in the air and the wind speed (the effect of temperature on the wind speed measurement can be ignored). In order to analyze the effect of ultrasonic probe direction on the accuracy and reliability of measurement, four different probe arrangement modes are used to carry out the experiment. The results show that the more serious the ultrasonic probe direction dislocation is, the larger the standard deviation and fluctuation range of wind speed. Therefore, the infrared orientation device is used to calibrate the installation position of the anemometer to reduce the measurement error caused by the ultrasonic probe direction dislocation. The moving average method is used to smooth the original wind speed waveform curve to eliminate random noise and improve the stability of output wind speed. By analyzing the factors affecting measurement precision, it is determined that the ultrasonic emission frequency is 40 kHz and the standby time is 100 ms. The theoretical calculation and experimental results show that the resolution of the anemometer is 0.01 m/s, the measurement error is ±0.1 m/s, and the starting wind speed is lower than 0.1 m/s, which can meet the precise wind measurement requirements of the mine roadway with low wind speed.

     

    • FullText(HTML)
  • loading
    • References(19)
  • [1]
    张庆华,姚亚虎,赵吉玉.我国矿井通风技术现状及智能化发展展望[J].煤炭科学技术,2020,48(2):97-103.

    ZHANG Qinghua,YAO Yahu,ZHAO Jiyu.Status of mine ventilation technology in China and prospects for intelligent development[J].Coal Science and Technology,2020,48(2):97-103.
    [2]
    周福宝,魏连江,夏同强,等.矿井智能通风原理、关键技术及其初步实现[J].煤炭学报,2020,45(6):2225-2235.

    ZHOU Fubao,WEI Lianjiang,XIA Tongqiang,et al.Principle,key technology and preliminary realization of mine intelligent ventilation[J].Journal of China Coal Society,2020,45(6):2225-2235.
    [3]
    徐新坤.煤矿用机械叶片式风速表测量准确度的影响因素[J].煤炭与化工,2016,39(5):136-137.

    XU Xinkun.Influencing factor of the accuracy of mine mechanic blade type anemometer[J].Coal and Chemical Industry,2016,39(5):136-137.
    [4]
    蒋泽,郝叶军,刘炎.一种矿用皮托管式风速传感器设计[J].工矿自动化,2012,38(11):61-63.

    JIANG Ze,HAO Yejun,LIU Yan.Design of a mine-used air speed sensor based on pitot tube[J].Industry and Mine Automation,2012,38(11):61-63.
    [5]
    周川云.高精度低下限超声波风速风向传感器关键技术研究[D].北京:煤炭科学研究总院,2018.

    ZHOU Chuanyun.Research of key technologies of high precision and low limit ultrasonic wind speed and direction sensor[D].Beijing:China Coal Research Institute,2018.
    [6]
    YUN Lei.Design of ultrasonic wind speed sensor for mine[C]//7th International Conference on Education,Management,Information and Mechanical Engineering,Shenyang,2017:602-605.
    [7]
    LUCENA D C,FREIRE R,VILLANUEVA J M M,et al.An innovative ultrasonic time of flight method based on extended Kalman filter for wind speed measurement[J].Journal of Instrumentation,2020,15(4):04024.
    [8]
    SCHLABERG H I,LIU Yan,LI Zhihong,et al.Wind speed and direction measurement with narrowband ultrasonic sensors using dual frequencies[C]//2nd IET Renewable Power Generation Conference,Beijing,2014.
    [9]
    裴晓东.灾变调风对采场煤自燃及瓦斯综合治理实验研究[D].徐州:中国矿业大学,2018.

    PEI Xiaodong.Experimental study on catastrophic regulating airflow for the comprehensive control of the coal spontaneous combustion and gas in coal mine[D].Xuzhou:China University of Mining and Technology,2018.
    [10]
    卢新明,尹红.矿井通风智能化理论与技术[J].煤炭学报,2020,45(6):2236-2247.

    LU Xinming,YIN Hong.The intelligent theory and technology of mine ventilation[J].Journal of China Coal Society,2020,45(6):2236-2247.
    [11]
    甘肃省电力公司,中国科学院电工研究所.一种风电场超声波风速检测方法及装置:CN201310081679.7[P].2013-03-14.

    Gansu Electric Power Company,Institute of Electrical Engineering of Chinese Academy of Sciences.Wind power plant ultrasonic wind speed detection method and device:CN201310081679.7[P].2013-03-14.
    [12]
    THIELICKE W,HVBERT W,MüLLER U,et al.Towards accurate and practical drone-based wind measurements with an ultrasonic anemometer[J].Atmospheric Measurement Techniques,2021,14(2):1303-1318.
    [13]
    刘华欣.基于超声波传感器的风速风向测量研究[J].仪表技术与传感器,2018(12):101-104.

    LIU Huaxin.Research on wind speed and direction measurement based on ultrasonic sensor[J].Instrument Technique and Sensor,2018(12):101-104.
    [14]
    冉霞,游青山.基于时差法的矿用超声波风速传感器[J].煤矿安全,2015,46(7):116-119.

    RAN Xia,YOU Qingshan.Mine-used ultrasonic air velocity sensor based on time difference method[J].Safety in Coal Mines,2015,46(7):116-119.
    [15]
    游青山.一种矿用超声波风速传感器的设计[J].煤矿安全,2017,48(1):88-91.

    YOU Qingshan.Design for an mine-used ultrasonic air velocity sensor[J].Safety in Coal Mines,2017,48(1):88-91.
    [16]
    郭伟.超声检测[M].北京:机械工业出版社,2009.

    GUO Wei.Ultrasonic testing[M].Beijing:China Machine Press,2009.
    [17]
    李同岭,李清君.超声波测距[J].煤炭技术,2012,31(7):55-56.

    LI Tongling,LI Qingjun.Ultrasonic distance measurement[J].Coal Technology,2012,31(7):55-56.
    [18]
    ESPINOZA C E M,VILLANUEVA J M M,CAVALCANTI S Y C.Wind speed measurement and uncertainty analysis using ultrasonic sensors with Kalman filtering[C]//Instrumentation & Measurement Technology Conference,Austin,2010.
    [19]
    张士岭.煤矿通风巷道断面风速测定与变化规律研究[J].矿业安全与环保,2019,46(4):17-20.

    ZHANG Shiling.Study on measurement and change law of wind speed in cross section of coal mine ventilation roadway[J].Mining Safety & Environmental Protection,2019,46(4):17-20.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Get Citation
    PDF
    XML

    Article Metrics

    Article views (224) PDF downloads(27) Cited by()
    Proportional views
    Related

    苏ICP备 05016349号-2

    Supported by: Beijing Renhe Information Technology Co. Ltd.Visits:    

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return