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WO2019000259A1 - Detection device and method for circulating type gas turbine flowmeter - Google Patents

Detection device and method for circulating type gas turbine flowmeter Download PDF

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Publication number
WO2019000259A1
WO2019000259A1 PCT/CN2017/090472 CN2017090472W WO2019000259A1 WO 2019000259 A1 WO2019000259 A1 WO 2019000259A1 CN 2017090472 W CN2017090472 W CN 2017090472W WO 2019000259 A1 WO2019000259 A1 WO 2019000259A1
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Prior art keywords
flowmeter
flow
gas turbine
meter
turbine flowmeter
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PCT/CN2017/090472
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French (fr)
Chinese (zh)
Inventor
张丛
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深圳市樊溪电子有限公司
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Publication of WO2019000259A1 publication Critical patent/WO2019000259A1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F25/00Testing or calibration of apparatus for measuring volume, volume flow or liquid level or for metering by volume
    • G01F25/10Testing or calibration of apparatus for measuring volume, volume flow or liquid level or for metering by volume of flowmeters
    • G01F25/17Testing or calibration of apparatus for measuring volume, volume flow or liquid level or for metering by volume of flowmeters using calibrated reservoirs

Definitions

  • the invention relates to a detection technology of a flow meter, in particular to a detection device and a detection method of a circulating gas turbine flowmeter.
  • Turbine flowmeter is the main type of velocity flowmeter.
  • the impeller rotates under force, and its rotational speed is proportional to the average flow velocity of the pipeline.
  • the blade is periodic.
  • the cutting electromagnet generates magnetic lines of force and changes the magnetic flux of the coil.
  • a pulsating potential signal that is, an electric pulse signal
  • the frequency of the electric pulsating signal is proportional to the flow rate of the fluid to be measured.
  • Turbine flowmeters have the advantages of high precision, good repeatability, zero drift, and high turndown ratio.
  • Turbine flowmeters feature high-quality bearings and specially designed baffles, which greatly reduce wear and tear, are insensitive to peaks, and can provide reliable measurement variables even under harsh conditions.
  • the turbine flow meter output is pulsed, easy to digitize, the turbine flowmeter has low pressure loss, the blades are corrosion resistant, and the viscous and corrosive media can be measured.
  • the gas turbine flow meter is a precision flow measuring instrument that can be used to measure the flow and total amount of liquid in conjunction with the corresponding flow meter.
  • Gas turbine flowmeters are widely used in metrology and control systems in petroleum, chemical, metallurgical, scientific research and other fields. Gas turbine flow meters equipped with sanitary joints can be used in the pharmaceutical industry.
  • the working principle of the gas turbine flowmeter is: when the fluid to be measured flows through the sensor, the impeller in the sensor is rotated by the kinetic energy of the fluid, and the impeller periodically changes the magnetic resistance in the magnetoelectric induction system.
  • the value is such that the magnetic flux passing through the coil periodically changes to generate an electrical pulse signal, which is amplified by the amplifier and displayed or transmitted to a corresponding flow totalizer, PLC or host computer for flow or total measurement.
  • the basic structure of the gas turbine flow sensor is shown in Figure 1. It consists mainly of the housing, front guide frame, impeller, rear guide frame, compression ring, fueling system (above DN40) and amplifier or display converter.
  • the integrated gas turbine flowmeter is an explosion-proof design that displays total flow, instantaneous flow and flow full percentage.
  • the battery uses a long-lasting lithium battery.
  • the battery life of the single-function integrated meter can reach more than 5 years, and the battery life of the multi-function display meter can reach more than 12 months.
  • the integrated meter can display a large number of flow units, including cubic meters, gallons, liters, standard cubic meters, standard liters, etc., can set fixed pressure, temperature parameters to compensate for gas, and occasions where pressure and temperature parameters change little.
  • the meter can be used for fixed compensation integration.
  • gas turbine flowmeters have a single non-standard measurement environment.
  • the verification procedures follow different artificial regulations and are not standardized enough to accurately determine the quality of the gas turbine flowmeter, and the technical defects of calibration.
  • the flow range measured by the method is relatively small, and is only suitable for small-diameter flowmeters. There is no mature technology for the verification of large-diameter flowmeters.
  • the object of the present invention is to provide a detection device for a circulating gas turbine flowmeter, which uses a clean air as a medium to verify, calibrate and inspect a gas flow meter, including a vacuum pump, a gas storage tank, a manifold container, an on-off valve, and a venturi Inside nozzle, stagnation container thermometer, stagnation container pressure gauge, stagnation container, flow regulating valve, thermometer after checklist, flowmeter to be inspected, and pressure gauge before checklist, the vacuum pump will be air from the checklist Intake of the upstream straight pipe section inlet, passing through the straight pipe section before the inspection table, the inspection table and the downstream straight pipe section of the inspection table into the stagnation container, and the venturi is provided downstream of the stagnation vessel a nozzle for controlling the on-off valve downstream of the venturi nozzle, thereby selecting any of the venturi nozzles to be switched to achieve the purpose of changing the flow rate of the check meter, the stagnation container passing the stagnation container thermometer The temperature is measured, and the pressure is measured by the
  • the clean air is supplied through a circulating gas path, and is pumped by the air pump.
  • the vacuum pump provides a negative pressure.
  • the object of the present invention is also achieved by a detection method of a circulating gas turbine flowmeter, comprising the following steps:
  • the turbine flow meter and the front and rear straight pipe sections of the step (2) need to be installed coaxially.
  • the step (3) adjusts the flow point to a 70% flow point of the maximum flow for 5 minutes.
  • the step (4) sets four flow points, which are Qmin, 0.6Qmin, 0.4Qmax, and Qmax, respectively.
  • the mathematical model of the step (5) is to calculate the instrument system of the i-th measurement of the flowmeter to be inspected. Number and transmission rate.
  • the negative pressure testing device and method are short in time, reduce labor intensity, improve detection efficiency, and do not require moving test equipment, and have good repeatability.
  • FIG. 1 is a schematic structural view of a gas turbine flow meter according to the prior art
  • FIG. 2 is a schematic structural view of a circulating gas turbine flowmeter detecting device according to an embodiment of the present invention
  • FIG. 3 is a flow chart of a method for detecting a circulating gas turbine flow meter in accordance with an embodiment of the present invention.
  • a detecting device for a circulating gas turbine flowmeter which uses a clean air as a medium to verify, calibrate and inspect a gas flow meter, including a vacuum pump 1, a gas storage tank 2, a manifold tube 3, a switch Valve 4, venturi nozzle 5, stagnation container thermometer 6, stagnation container pressure gauge 7, stagnation container 8, flow regulating valve 9, thermometer after checklist 10, flow meter 11 to be inspected, and gauge before the meter 12,
  • the vacuum pump 1 draws air from the upstream straight pipe section inlet of the flowmeter 11 to be inspected, passes through the straight pipe section before the flowmeter 11 to be inspected, the flowmeter 11 to be inspected, and the straight pipe section downstream of the flowmeter 11 to be inspected into the stagnation vessel 8
  • the venturi nozzle 5 is provided to control the on-off valve 4 downstream of the venturi nozzle 5 so that any of the venturi nozzles 5 to be switched is selected to achieve a change
  • the stagnation nozzle 5 is provided to control the on-off valve 4 downstream of the venturi
  • a detection method of a gas turbine flowmeter includes the following steps: (1) setting measurement conditions, including atmospheric temperature, atmospheric relative humidity, atmospheric pressure, medium temperature for verification, power supply voltage, and power frequency; (2) Under the specified measurement conditions, according to the JJG1037-2008 turbine flowmeter verification procedure, the turbine flowmeter is installed on the detection device, and the turbine flowmeter and the straight pipe sections need to be coaxially installed; (3) air is used Verify the medium, adjust the flow point to the 70% flow point of the maximum flow, run for 5 minutes, wait for the medium temperature, pressure and flow to stabilize and then perform formal verification; (4) Set multiple 1.5-stage turbine flowmeter verification according to the verification procedure.
  • K is the meter factor of the i-th measurement of the flowmeter to be inspected, (m 3 ) -1
  • N i is the number of pulses measured by the meter for the i-th measurement of the measured flow meter
  • V i is the cumulative flow rate of the i-th measuring device, m 3
  • the rate of transmission is:
  • the negative pressure testing device and method are short in time, reduce labor intensity, improve detection efficiency, and do not require moving test equipment, and have good repeatability.

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  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Measuring Volume Flow (AREA)

Abstract

A detection device for a circulating type gas turbine flowmeter. Clean air is used as a medium, and the gas flowmeter is verified, calibrated and checked. The device comprises a vacuum pump (1), a gas storage tank (2), a collecting pipe container (3), a switching valve (4), a venturi nozzle (5), a stagnation container thermometer (6), a stagnation container pressure meter (7), a stagnation container (8), a flow regulating valve (9), a thermometer (10) behind a detected meter, a detected flowmeter (11) and a pressure meter (12) in front of the detected meter. The vacuum pump (1) sucks clean air from an inlet of an upstream straight pipe section of the detected flowmeter (11), the venturi nozzle (5) which needs to be opened and closed may be selected freely, the flow of the detected meter (11) is changed, the mass flow passing through the venturi nozzle (5) is calculated and obtained by means of temperature and pressure measurement, and verification is completed. Also provided is a gas turbine flowmeter detection method which employs the detection device, wherein the detection method has a short consumption time, improves the detection efficiency and has good repeatability.

Description

一种循环式气体涡轮流量计的检测装置及检测方法Detection device and detection method of circulating gas turbine flowmeter 技术领域Technical field
本发明涉及流量计的检测技术,特别是一种循环式气体涡轮流量计的检测装置及检测方法。The invention relates to a detection technology of a flow meter, in particular to a detection device and a detection method of a circulating gas turbine flowmeter.
背景技术Background technique
涡轮流量计是速度式流量计中的主要种类,当被测流体流过涡轮流量传感器时,在流体的作用下,叶轮受力旋转,其转速与管道平均流速成正比,同时,叶片周期性的切割电磁铁产生磁力线,改变线圈的磁通量,根据电磁感应原理,在线圈内将感应出脉动的电势信号,即电脉冲信号,此电脉动信号的频率与被测流体的流量成正比。涡轮流量计具有精度高、重复性好、无零点漂移、高量程比的优点。涡轮流量计拥有高质量轴承、特别设计的导流片,因此极大降低了磨损,对峰值不敏感,甚至恶劣的条件下也可以给出可靠的测量变量。涡轮流量计输出信号为脉冲,易于数字化,涡轮流量计压力损失小,叶片能防腐,可以测量粘稠和腐蚀性的介质。Turbine flowmeter is the main type of velocity flowmeter. When the fluid to be measured flows through the turbine flow sensor, under the action of the fluid, the impeller rotates under force, and its rotational speed is proportional to the average flow velocity of the pipeline. At the same time, the blade is periodic. The cutting electromagnet generates magnetic lines of force and changes the magnetic flux of the coil. According to the principle of electromagnetic induction, a pulsating potential signal, that is, an electric pulse signal, is induced in the coil, and the frequency of the electric pulsating signal is proportional to the flow rate of the fluid to be measured. Turbine flowmeters have the advantages of high precision, good repeatability, zero drift, and high turndown ratio. Turbine flowmeters feature high-quality bearings and specially designed baffles, which greatly reduce wear and tear, are insensitive to peaks, and can provide reliable measurement variables even under harsh conditions. The turbine flow meter output is pulsed, easy to digitize, the turbine flowmeter has low pressure loss, the blades are corrosion resistant, and the viscous and corrosive media can be measured.
气体涡轮流量计是一种精密流量测量仪表,与相应的流量积算仪表配套可用于测量液体的流量和总量。气体涡轮流量计广泛用于石油、化工、冶金、科研等领域的计量、控制系统。配备有卫生接头的气体涡轮流量计可以应用于制药行业。气体涡轮流量计工作原理为:当被测流体流经传感器时,传感器内的叶轮借助于流体的动能而产生旋转,叶轮即周期性地改变磁电感应系统中的磁阻 值,使通过线圈的磁通量周期性地发生变化而产生电脉冲信号,经放大器放大后进行显示或传送至相应的流量积算仪表、PLC或上位计算机,进行流量或总量的测量。气体涡轮流量传感器的基本结构如图1所示,它主要由壳体、前导向架、叶轮、后导向架、压紧圈、加油系统(DN40以上)和放大器或显示转换器等组成。The gas turbine flow meter is a precision flow measuring instrument that can be used to measure the flow and total amount of liquid in conjunction with the corresponding flow meter. Gas turbine flowmeters are widely used in metrology and control systems in petroleum, chemical, metallurgical, scientific research and other fields. Gas turbine flow meters equipped with sanitary joints can be used in the pharmaceutical industry. The working principle of the gas turbine flowmeter is: when the fluid to be measured flows through the sensor, the impeller in the sensor is rotated by the kinetic energy of the fluid, and the impeller periodically changes the magnetic resistance in the magnetoelectric induction system. The value is such that the magnetic flux passing through the coil periodically changes to generate an electrical pulse signal, which is amplified by the amplifier and displayed or transmitted to a corresponding flow totalizer, PLC or host computer for flow or total measurement. The basic structure of the gas turbine flow sensor is shown in Figure 1. It consists mainly of the housing, front guide frame, impeller, rear guide frame, compression ring, fueling system (above DN40) and amplifier or display converter.
一体化气体涡轮流量计结构为防爆设计,可以显示流量总量,瞬时流量和流量满度百分比。电池采用长效锂电池,单功能积算表电池使用寿命可达5年以上,多功能显示表电池使用寿命也可达到12个月以上。一体化表头可以显示的流量单位众多,有立方米,加仑,升,标准立方米,标准升等,可以设定固定压力、温度参数对气体进行补偿,对压力和温度参数变化不大的场合,可使用该仪表进行固定补偿积算。The integrated gas turbine flowmeter is an explosion-proof design that displays total flow, instantaneous flow and flow full percentage. The battery uses a long-lasting lithium battery. The battery life of the single-function integrated meter can reach more than 5 years, and the battery life of the multi-function display meter can reach more than 12 months. The integrated meter can display a large number of flow units, including cubic meters, gallons, liters, standard cubic meters, standard liters, etc., can set fixed pressure, temperature parameters to compensate for gas, and occasions where pressure and temperature parameters change little. The meter can be used for fixed compensation integration.
然而,目前气体涡轮流量计存在测量环境条件单一不标准,检定规程遵循不同的人为规定,不够标准化,从而无法准确判定气体涡轮流量计的质量,也无法对其校准的技术缺陷,另外采用正压法测量的流量范围比较小,只适合小口径的流量计,对大口径流量计的检定没有成熟的技术。However, at present, gas turbine flowmeters have a single non-standard measurement environment. The verification procedures follow different artificial regulations and are not standardized enough to accurately determine the quality of the gas turbine flowmeter, and the technical defects of calibration. The flow range measured by the method is relatively small, and is only suitable for small-diameter flowmeters. There is no mature technology for the verification of large-diameter flowmeters.
发明内容Summary of the invention
本发明的目的在于提供一种循环式气体涡轮流量计的检测装置,采用洁净空气为介质,对气体流量计进行检定、校准和检验,包括真空泵、储气罐、汇流管容器,开关阀,文丘里喷嘴,滞止容器温度计,滞止容器压力计,滞止容器,流量调节阀,被检表后温度计,被检流量计,以及被检表前压力计,所述真空泵将空气由被检表的上游直管段入口吸入,经过被检表前直管段、被检表和被检表下游直管段进入所述滞止容器,在滞止容器的下游,设有所述文丘里 喷嘴,控制所述文丘里喷嘴下游的所述开关阀,从而任一选择所要开关的所述文丘里喷嘴,以达到改变被检表流量的目的,所述滞止容器通过所述滞止容器温度计测温,通过所述滞止容器压力表测压,计算获得通过所述文丘里喷嘴的质量流量,完成对所述被检表的检定。The object of the present invention is to provide a detection device for a circulating gas turbine flowmeter, which uses a clean air as a medium to verify, calibrate and inspect a gas flow meter, including a vacuum pump, a gas storage tank, a manifold container, an on-off valve, and a venturi Inside nozzle, stagnation container thermometer, stagnation container pressure gauge, stagnation container, flow regulating valve, thermometer after checklist, flowmeter to be inspected, and pressure gauge before checklist, the vacuum pump will be air from the checklist Intake of the upstream straight pipe section inlet, passing through the straight pipe section before the inspection table, the inspection table and the downstream straight pipe section of the inspection table into the stagnation container, and the venturi is provided downstream of the stagnation vessel a nozzle for controlling the on-off valve downstream of the venturi nozzle, thereby selecting any of the venturi nozzles to be switched to achieve the purpose of changing the flow rate of the check meter, the stagnation container passing the stagnation container thermometer The temperature is measured, and the pressure is measured by the stagnation container pressure gauge, and the mass flow rate through the venturi nozzle is calculated to complete the verification of the check table.
优选的,所述洁净空气通过循环气路提供,通过气泵进行抽气。Preferably, the clean air is supplied through a circulating gas path, and is pumped by the air pump.
优选的,真空泵提供负压。Preferably, the vacuum pump provides a negative pressure.
本发明的目的还通过一种循环式气体涡轮流量计的检测方式实现,包括如下步骤:The object of the present invention is also achieved by a detection method of a circulating gas turbine flowmeter, comprising the following steps:
(1)设定测量条件,包括大气温度,大气相对湿度,大气压力,检定用介质温度,电源电压,电源频率;(1) Set the measurement conditions, including atmospheric temperature, atmospheric relative humidity, atmospheric pressure, medium temperature for verification, power supply voltage, and power frequency;
(2)在规定的测量条件下,按照JJG1037-2008涡轮流量计检定规程,将涡轮流量计安装在所述检测装置上;(2) installing the turbine flowmeter on the detecting device according to the JJG1037-2008 turbine flowmeter verification procedure under the specified measurement conditions;
(3)以洁净空气为检定介质,调节流量点至最大流量的一定百分比处,运行一定时间,等待介质温度、压力和流量稳定后进行正式检定;(3) Using clean air as the verification medium, adjust the flow point to a certain percentage of the maximum flow rate, run for a certain period of time, and wait for the medium temperature, pressure and flow rate to stabilize after formal verification;
(4)依据检定规程,设定多个1.5级的涡轮流量计检定流量点,将在第i点第j次测得的被检流量计脉冲信号与标准气体流量装置在该点该次测得得标准体积流量之比作为第i点第j次测量的仪表系数;(4) According to the verification procedure, set a plurality of 1.5-stage turbine flowmeter verification flow points, and measure the detected flowmeter pulse signal and the standard gas flow device measured at the jth point of the i-th point at the point. The ratio of the standard volume flow rate is taken as the meter factor of the jth measurement at the i-th point;
(5)建立数学模型,评价所述气体涡轮流量计的检测装置输入量的相对不确定度从而确定所述气体涡轮流量计的质量等级。(5) Establishing a mathematical model for evaluating the relative uncertainty of the input of the detection device of the gas turbine flow meter to determine the quality level of the gas turbine flow meter.
优选的,所述步骤(2)所述涡轮流量计与前后直管段需要同轴安装。Preferably, the turbine flow meter and the front and rear straight pipe sections of the step (2) need to be installed coaxially.
优选的,所述步骤(3)调节流量点至最大流量的70%流量点,运行5分钟。Preferably, the step (3) adjusts the flow point to a 70% flow point of the maximum flow for 5 minutes.
优选的,所述步骤(4)设定四个流量点,分别为Qmin,0.6Qmin,0.4Qmax,Qmax。Preferably, the step (4) sets four flow points, which are Qmin, 0.6Qmin, 0.4Qmax, and Qmax, respectively.
优选的,所述步骤(4)对于量程比<20:1的流量计,分界流量0.6Qmin=0.2Qmax。Preferably, the step (4) is for a flowmeter with a range ratio <20:1, and the boundary flow is 0.6Qmin=0.2Qmax.
优选的,所述步骤(5)的数学模型为计算第i次测量被检流量计的仪表系 数以及传播率。Preferably, the mathematical model of the step (5) is to calculate the instrument system of the i-th measurement of the flowmeter to be inspected. Number and transmission rate.
该负压测试装置和方法耗时短,减少劳动强度,提高了检测效率,无需移动测试设备,重复性好。The negative pressure testing device and method are short in time, reduce labor intensity, improve detection efficiency, and do not require moving test equipment, and have good repeatability.
根据下文结合附图对本发明具体实施例的详细描述,本领域技术人员将会更加明了本发明的上述以及其他目的、优点和特征。The above as well as other objects, advantages and features of the present invention will become apparent to those skilled in the <
附图说明DRAWINGS
后文将参照附图以示例性而非限制性的方式详细描述本发明的一些具体实施例。附图中相同的附图标记标示了相同或类似的部件或部分。本领域技术人员应该理解,这些附图未必是按比例绘制的。本发明的目标及特征考虑到如下结合附图的描述将更加明显,附图中:Some specific embodiments of the present invention will be described in detail, by way of example, and not limitation, The same reference numbers in the drawings identify the same or similar parts. Those skilled in the art should understand that the drawings are not necessarily drawn to scale. The objects and features of the present invention will become more apparent in consideration of the following description in conjunction with the accompanying drawings.
图1为根据现有技术的气体涡轮流量计结构示意图;1 is a schematic structural view of a gas turbine flow meter according to the prior art;
图2为根据本发明实施例的循环式气体涡轮流量计检测装置结构示意图;2 is a schematic structural view of a circulating gas turbine flowmeter detecting device according to an embodiment of the present invention;
图3为根据本发明实施例的循环式气体涡轮流量计检测方法流程图。3 is a flow chart of a method for detecting a circulating gas turbine flow meter in accordance with an embodiment of the present invention.
具体实施方式Detailed ways
参见附图2,提供一种循环式气体涡轮流量计的检测装置,采用洁净空气为介质,对气体流量计进行检定、校准和检验,包括真空泵1、储气罐2、汇流管容器3,开关阀4,文丘里喷嘴5,滞止容器温度计6,滞止容器压力计7,滞止容器8,流量调节阀9,被检表后温度计10,被检流量计11以及被检表前压力计12,真空泵1将空气由被检流量计11的上游直管段入口吸入,经过被检流量计11前直管段、被检流量计11和被检流量计11下游直管段进入所述滞止容器8,在滞止容器8的下游,设有所述文丘里喷嘴5,控制所述文丘里喷嘴5下游的所述开关阀4,从而任一选择所要开关的所述文丘里喷嘴5,以达到改变被检表流量的目的,所述滞止容器8通过所述滞止容器温度计6测温,通过所述滞 止容器压力表7测压,计算获得通过所述文丘里喷嘴5的质量流量,完成对所述被检流量计11的检定。洁净空气通过循环气路提供,通过气泵进行抽气,真空泵提供负压。Referring to Figure 2, there is provided a detecting device for a circulating gas turbine flowmeter, which uses a clean air as a medium to verify, calibrate and inspect a gas flow meter, including a vacuum pump 1, a gas storage tank 2, a manifold tube 3, a switch Valve 4, venturi nozzle 5, stagnation container thermometer 6, stagnation container pressure gauge 7, stagnation container 8, flow regulating valve 9, thermometer after checklist 10, flow meter 11 to be inspected, and gauge before the meter 12, the vacuum pump 1 draws air from the upstream straight pipe section inlet of the flowmeter 11 to be inspected, passes through the straight pipe section before the flowmeter 11 to be inspected, the flowmeter 11 to be inspected, and the straight pipe section downstream of the flowmeter 11 to be inspected into the stagnation vessel 8 Downstream of the stagnation vessel 8, the venturi nozzle 5 is provided to control the on-off valve 4 downstream of the venturi nozzle 5 so that any of the venturi nozzles 5 to be switched is selected to achieve a change For the purpose of the meter flow, the stagnation container 8 is temperature-measured by the stagnation container thermometer 6, and passes through the stagnation The container pressure gauge 7 measures the pressure, and the mass flow rate through the venturi nozzle 5 is calculated to complete the verification of the flowmeter 11 to be inspected. The clean air is supplied through the circulating gas path, and the air pump is used for pumping, and the vacuum pump provides a negative pressure.
参见附图3,一种气体涡轮流量计的检测方式实现,包括如下步骤:(1)设定测量条件,包括大气温度,大气相对湿度,大气压力,检定用介质温度,电源电压,电源频率;(2)在规定的测量条件下,按照JJG1037-2008涡轮流量计检定规程,将涡轮流量计安装在所述检测装置上,涡轮流量计与前后直管段需要同轴安装;(3)以空气为检定介质,调节流量点至最大流量的70%流量点,运行5分钟,等待介质温度、压力和流量稳定后进行正式检定;(4)依据检定规程,设定多个1.5级的涡轮流量计检定流量点,设定四个流量点,分别为Qmin,0.6Qmin,0.4Qmax,Qmax,对于量程比<20:1的流量计,分界流量0.6Qmin=0.2Qmax,将在第i点第j次测得的被检流量计脉冲信号与标准气体流量装置在该点该次测得得标准体积流量之比作为第i点第j次测量的仪表系数;(5)建立数学模型,评价所述气体涡轮流量计的检测装置输入量的相对不确定度从而确定所述气体涡轮流量计的质量等级,数学模型为计算第i次测量被检流量计的仪表系数以及传播率。Referring to FIG. 3, a detection method of a gas turbine flowmeter includes the following steps: (1) setting measurement conditions, including atmospheric temperature, atmospheric relative humidity, atmospheric pressure, medium temperature for verification, power supply voltage, and power frequency; (2) Under the specified measurement conditions, according to the JJG1037-2008 turbine flowmeter verification procedure, the turbine flowmeter is installed on the detection device, and the turbine flowmeter and the straight pipe sections need to be coaxially installed; (3) air is used Verify the medium, adjust the flow point to the 70% flow point of the maximum flow, run for 5 minutes, wait for the medium temperature, pressure and flow to stabilize and then perform formal verification; (4) Set multiple 1.5-stage turbine flowmeter verification according to the verification procedure. Flow point, set four flow points, respectively Qmin, 0.6Qmin, 0.4Qmax, Qmax, for the flowmeter with a range ratio <20:1, the demarcation flow 0.6Qmin=0.2Qmax, will be the jth test at the i-th point The ratio of the measured flowmeter pulse signal and the standard gas flow device at the point of the standard volume flow measured at that point is taken as the meter coefficient of the jth measurement at the i-th point; (5) establishing a mathematical model to evaluate the gas Turbine flowmeter relative uncertainty of the input detecting means so as to determine the quality level of the gas turbine flowmeter, a mathematical model to calculate the i-th measurement subject flowmeter meter factor and transmission rates.
其中K=Ni/Vi,                          (1)Where K=N i /V i , (1)
K为第i次测量被检流量计的仪表系数,(m3)-1 K is the meter factor of the i-th measurement of the flowmeter to be inspected, (m 3 ) -1
Ni为第i次测量被测流量计显示仪表测得的脉冲数;N i is the number of pulses measured by the meter for the i-th measurement of the measured flow meter;
Vi为第i次测量装置的累积流量,m3 V i is the cumulative flow rate of the i-th measuring device, m 3
传播率为:The rate of transmission is:
Figure PCTCN2017090472-appb-000001
Figure PCTCN2017090472-appb-000001
在大气温度为(23.5±1)oc,大气相对湿度为(38±1)%RH,大气压(94.5±0.5)kPa,检定用介质温度(18.5±0.1)oc,电源电压为220V,电源频率50Hz的测量环境条件下,用一台0.5-120m3/h,DN25mm的气体涡轮流量计进行检定,流量选择在 最大流量70%处测量60秒,累积流量250L,用工控测量设备连续测量6次得到一组测量列,获得单次试验标准差为13.55,取3平均值不确定度为0.20%,结合厂家给出的该气体涡轮流量计的扩展不确定度和系数,得到合成相对标准不确定度为0.24%。然而在其他给定测量流量点进行测量分别获得上述数值后,去测量接过重复性作为最大值,扩展不确定度为0.54%,在该扩展不确定度之下的为标准合格气体涡轮流量计。At atmospheric temperature (23.5±1) oc, atmospheric relative humidity is (38±1)% RH, atmospheric pressure (94.5±0.5) kPa, medium temperature for verification (18.5±0.1) oc, power supply voltage is 220V, power supply frequency is 50Hz Under the measurement environment conditions, a 0.5-120m 3 /h, DN25mm gas turbine flowmeter is used for verification. The flow rate is selected for 60 seconds at the maximum flow rate of 70%, the cumulative flow rate is 250L, and the industrial control measuring device continuously measures 6 times. For a set of measurement columns, the standard deviation of single test is 13.55, and the average uncertainty of 3 is 0.20%. Combined with the extended uncertainty and coefficient of the gas turbine flowmeter given by the manufacturer, the relative standard uncertainty of synthesis is obtained. It is 0.24%. However, after the above values are obtained by measuring at other given measurement flow points, the measurement repeatability is taken as the maximum value, and the expansion uncertainty is 0.54%. Under the extended uncertainty, the standard qualified gas turbine flowmeter is used. .
该负压测试装置和方法耗时短,减少劳动强度,提高了检测效率,无需移动测试设备,重复性好。The negative pressure testing device and method are short in time, reduce labor intensity, improve detection efficiency, and do not require moving test equipment, and have good repeatability.
虽然本发明已经参考特定的说明性实施例进行了描述,但是不会受到这些实施例的限定而仅仅受到附加权利要求的限定。本领域技术人员应当理解可以在不偏离本发明的保护范围和精神的情况下对本发明的实施例能够进行改动和修改。 The present invention has been described with reference to the specific illustrative embodiments, and is not limited by the scope of the appended claims. It will be appreciated by those skilled in the art that the embodiments of the invention can be modified and modified without departing from the scope and spirit of the invention.

Claims (9)

  1. 一种循环式气体涡轮流量计的检测装置,采用洁净空气为介质,对气体流量计进行检定、校准和检验,其特征在于:包括真空泵(1)、储气罐(2)、汇流管容器(3),开关阀(4),文丘里喷嘴(5),滞止容器温度计(6),滞止容器压力计(7),滞止容器(8),流量调节阀(9),被检表后温度计(10),被检流量计(11)以及被检表前压力计(12),所述真空泵(1)将所述洁净空气由被检流量计(11)的上游直管段入口吸入,经过被检流量计(11)前直管段、被检流量计(11)和被检流量计(11)下游直管段进入所述滞止容器(8),在所述滞止容器(8)的下游,设有所述文丘里喷嘴(5),控制所述文丘里喷嘴(5)下游的所述开关阀(4),从而任一选择所要开关的所述文丘里喷嘴(5),以达到改变被检表流量的目的,所述滞止容器(8)通过所述滞止容器温度计(6)测温,通过所述滞止容器压力表(7)测压,计算获得通过所述文丘里喷嘴(5)的质量流量,完成对所述被检流量计(11)的检定。The utility model relates to a detecting device for a circulating gas turbine flowmeter, which uses a clean air as a medium to verify, calibrate and inspect a gas flowmeter, and is characterized in that it comprises a vacuum pump (1), a gas storage tank (2) and a manifold container ( 3), on-off valve (4), venturi nozzle (5), stagnation container thermometer (6), stagnation container pressure gauge (7), stagnation container (8), flow regulating valve (9), checklist a rear thermometer (10), a flow meter (11) to be inspected, and a pressure gauge (12) before the meter, the vacuum pump (1) sucking the clean air from the upstream straight pipe inlet of the flowmeter (11) to be inspected, After the straight pipe section of the detected flow meter (11), the flowmeter to be inspected (11) and the downstream straight pipe section of the flowmeter to be inspected (11) enter the stagnation container (8), in the stagnation container (8) Downstream, the venturi nozzle (5) is provided to control the on-off valve (4) downstream of the venturi nozzle (5), so that any venturi nozzle (5) to be switched is selected to achieve For the purpose of changing the flow rate of the meter to be inspected, the stagnation vessel (8) is temperature-measured by the stagnation vessel thermometer (6), and the pressure is measured by the stagnation vessel pressure gauge (7), and the calculation is passed. The mass flow rate of the venturi nozzle (5) completes the verification of the flowmeter (11) to be inspected.
  2. 根据权利要求1所述的一种循环式气体涡轮流量计的检测装置,其特征在于:所述洁净空气通过循环气路提供,通过气泵进行抽气。A detecting device for a circulating gas turbine flowmeter according to claim 1, wherein said clean air is supplied through a circulating gas path, and is evacuated by a gas pump.
  3. 根据权利要求1所述的一种循环式气体涡轮流量计的检测装置,其特征在于:所述真空泵(1)提供负压。A detecting device for a circulating gas turbine flowmeter according to claim 1, characterized in that the vacuum pump (1) provides a negative pressure.
  4. 一种使用如权利要求1-3中任一一个检测装置进行的循环式气体涡轮流量计的检测方法,其特征在于包括如下步骤:A method for detecting a circulating gas turbine flowmeter using the detecting device according to any one of claims 1 to 3, comprising the steps of:
    (1)设定测量条件,包括大气温度,大气相对湿度,大气压力,检定用介质温度,电源电压,电源频率;(1) Set the measurement conditions, including atmospheric temperature, atmospheric relative humidity, atmospheric pressure, medium temperature for verification, power supply voltage, and power frequency;
    (2)在规定的测量条件下,按照JJG1037-2008涡轮流量计检定规程,将涡轮流量计安装在所述检测装置上;(2) installing the turbine flowmeter on the detecting device according to the JJG1037-2008 turbine flowmeter verification procedure under the specified measurement conditions;
    (3)以空气为检定介质,调节流量点至最大流量的一定百分比处,运行一定时间,等待介质温度、压力和流量稳定后进行正式检定;(3) Using air as the verification medium, adjust the flow point to a certain percentage of the maximum flow rate, run for a certain period of time, and wait for the medium temperature, pressure and flow rate to stabilize after formal verification;
    (4)依据检定规程,设定多个1.5级的涡轮流量计检定流量点,将在第i 点第j次测得的被检流量计脉冲信号与标准气体流量装置在该点该次测得得标准体积流量之比作为第i点第j次测量的仪表系数;(4) According to the verification procedure, set a plurality of 1.5-level turbine flowmeter verification flow points, which will be in the i The ratio of the measured flow meter pulse signal measured at the jth time to the standard volume flow rate measured by the standard gas flow device at the point is taken as the meter coefficient measured at the jth point of the i-th point;
    (5)建立数学模型,评价所述气体涡轮流量计的检测装置输入量的相对不确定度从而确定所述气体涡轮流量计的质量等级。(5) Establishing a mathematical model for evaluating the relative uncertainty of the input of the detection device of the gas turbine flow meter to determine the quality level of the gas turbine flow meter.
  5. 根据权利要求4所述的气体涡轮流量计的检测方法,其特征在于:所述步骤(2)所述涡轮流量计与前后直管段需要同轴安装。The method for detecting a gas turbine flowmeter according to claim 4, wherein the turbine flowmeter and the front and rear straight pipe sections of the step (2) need to be coaxially mounted.
  6. 根据权利要求4所述的气体涡轮流量计的检测方法,其特征在于:所述步骤(3)调节流量点至最大流量的70%流量点,运行5分钟。The method of detecting a gas turbine flow meter according to claim 4, wherein the step (3) adjusts the flow point to a flow rate of 70% of the maximum flow rate for 5 minutes.
  7. 根据权利要求4所述的气体涡轮流量计的检测方法,其特征在于:所述步骤(4)设定四个流量点,分别为Qmin,0.6Qmin,0.4Qmax,Qmax。The method for detecting a gas turbine flowmeter according to claim 4, wherein the step (4) sets four flow points, which are Qmin, 0.6Qmin, 0.4Qmax, and Qmax, respectively.
  8. 根据权利要求4所述的气体涡轮流量计的检测方法,其特征在于:所述步骤(4)对于量程比<20:1的流量计,分界流量0.6Qmin=0.2Qmax。The method for detecting a gas turbine flowmeter according to claim 4, wherein said step (4) is a flowmeter with a range ratio of <20:1, and a boundary flow rate of 0.6 Qmin = 0.2 Qmax.
  9. 根据权利要求4所述的气体涡轮流量计的检测方法,其特征在于:所述步骤(5)的数学模型为计算第i次测量被检流量计的仪表系数以及传播率。 The method for detecting a gas turbine flowmeter according to claim 4, wherein the mathematical model of the step (5) is to calculate the meter coefficient and the propagation rate of the flowmeter to be inspected for the i-th measurement.
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CN113720424B (en) * 2021-07-26 2023-08-15 广州能源检测研究院 Series-parallel coupling type multi-station water meter calibrating device and method
CN113720424A (en) * 2021-07-26 2021-11-30 广州能源检测研究院 Serial-parallel coupling type multi-station water meter calibrating device and method
CN116519100A (en) * 2023-07-03 2023-08-01 河北丰源智控科技股份有限公司 Automatic verification system for water meter
CN116519100B (en) * 2023-07-03 2023-09-08 河北丰源智控科技股份有限公司 Automatic verification system for water meter

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