FREQUENCY PROCESSING AND TEMPERATURE-PRESSURE COMPENSATION OF THE VORTEX FLOWMETER BASED ON TWO-PHASE FLOW

Publications

Share / Export Citation / Email / Print / Text size:

International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering, Engineering, Electrical & Electronic

GET ALERTS

eISSN: 1178-5608

DESCRIPTION

2
Reader(s)
11
Visit(s)
0
Comment(s)
0
Share(s)

VOLUME 7 , ISSUE 3 (September 2014) > List of articles

FREQUENCY PROCESSING AND TEMPERATURE-PRESSURE COMPENSATION OF THE VORTEX FLOWMETER BASED ON TWO-PHASE FLOW

Zhang Haining * / Ren Yonghui *

Keywords : Frequency processing, temperature-pressure compensation, vortex flowmeter, TPF, the integrating system.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 7, Issue 3, Pages 1,326-1,346, DOI: https://doi.org/10.21307/ijssis-2017-708

License : (CC BY-NC-ND 4.0)

Received Date : 30-March-2014 / Accepted: 10-July-2014 / Published Online: 01-September-2014

ARTICLE

ABSTRACT

Aiming at a new type and multi-functional intelligent vortex flowmeter integrating system,
which implicates whether it is liquid, gas, steam or the mixture of oil and gas, or in special conditions
such as high temperature, high pressure, the medium can be measured intelligently. Especially for
mixed media by TPF (Two-phase Flow), such as oil and gas, water vapor, firstly separates the mixed
fluid through the gas-liquid separation device, and then rolls up the vortex signal, temperature and
pressure of separated fluid into one, and finally a stable and accurate result is obtained by inputting the
mixed signal through the integrating system. Thus, the applicability and reliability of the flowmeter can
be greatly enhanced, which ensures the authenticity and stability of the measurement data about the
fluid.

Content not available PDF Share

FIGURES & TABLES

REFERENCES

[1] I. Scott and R.W.W, “Development in Flow Measurement”, Applied Science Pub, 1982, pp.
18-32.
[2] Yang Jianjun and Zhao Qingsheng, “Steam Flow Measurement of Temperature-pressure
Compensation”, China Metrology, April 2011, pp. 94-95.
[3] Liu Sanshan, Xu Kejun, Zhu Zhihai, “Development of Differential Charge Amplifier for
Vortex Flowmeter”, Automation & Instrumentation, Vol. 8, No. 5, November 2008, pp. 8-11.
[4] Bao Lisha, Liang Junting and Lu Jie, “Mathematic model of multi-path ultrasonic gas
flowmeter”, Technical Acoustics, Vol. 29, No. 4, August 2010, pp. 392-395.
[5] N. Eidenberger and B.G. Zagar, “Capacitive Sensor Design Utilizing Conformal Mapping
Methods”, INTERNATIONAL JOURNAL ON SMART SENSING AND INTELLIGENT
SYSTEMS, Vol. 5, No. 1, March 2012, pp. 36-56.
[6] Sani Muhamad Isa, M. Eka Suryana, M. Ali Akbar, Ary Noviyanto, Wisnu Jatmiko and
Aniati Murni Arymurthy, “Performance Analysis of ECG Signal Compression using SPIHT”,
INTERNATIONAL JOURNAL ON SMART SENSING AND INTELLIGENT SYSTEMS, Vol.
6, No. 5, December 2013, pp. 2011-2039.
[7] Lu Jie and Liang Junting, “The research and calibration of small-caliber ultrasonic gas
flowmeter”, Acoustics Technology, Vol. 22, No. 4, 2003, pp. 230-232.
[8] Mohd Fua’ad Rahmat and Teimour Tajdari, “Particles Mass Flow Rate and Concentration
Measurement using Electrostatic Sensor”, INTERNATIONAL JOURNAL ON SMART
SENSING AND INTELLIGENT SYSTEMS, Vol. 4, No. 2, June 2011, pp. 313-324.
[9] Amadi-Echendu, J.E. and Hingham, “Analysis of Signals from Vortex Flowmeter”, Flow
Measurement and Instrumentation, Vol. 41, Issue. 6, August 1993, pp. 42-45.
[10] R.G. Kryshtal and A.V. Medved, “Single SH-Saw Sensor as A Distributed Sensor Array for
Liquids Recognition”, INTERNATIONAL JOURNAL ON SMART SENSING AND
INTELLIGENT SYSTEMS, Vol. 2, No. 4, December 2009, pp. 602-611.
[11] A. Lanevile, A. Strzelecki, P. Ganjan and P. Hebrard, “Signal qualify of a vortex flowmeter
exposed to swirling flows”, Flow Measurement and Instrumentation, Vol. 4, No. 3, April 1993,
pp. 151-154.
[12] Wang Zhimin and Wang Yichao, “Flow Check System with Compensation and Its
Application”, Instruments and measurement and control, Vol. 24, No. 3, March 2002, pp. 26-28.
[13] Papagiannakis and K.Senn, “WIM system calibration using AVI-equipped vehicles”,
Vehicle Navigation and Information Systems Conference, June 1995, pp. 299-304.
[14] Bernhard Menz, “Vortex flowmeter with enhanced accuracy and reliability by means of
sensor fusion and self-validation”, Journal of the International Measurement Confederation, Vol.
22, No. 3, November 1998, pp. 123-128.
[15] Li Zigao, Liu Jia and Lu Hongming, “Configuration Approach Method for Realizing Steam
Flux Measurement with Temperature and Pressure Compensation in DCS”, AUTOMATION IN
PETRO-CHEMICAL INDUSTRY, Vol. 64, No. 4, February 2007, pp. 64-67.
[16] Dong Wang and Lin Zonghu, “Gas-liquid two-phase flow measurement using ESM”,
Experimental Thermal and Fluid Science, Vol. 26, No. 6, August 2002, pp. 827-832.
[17] Sun Hongjun, Liu Zhongjie, Wang Linfang and Li Jinxia, “Research on the Installation
Location of the Vortex Probe for Gas-liquid Two-phase Flow with Low Liquid Fraction”,
JOURNAL OF MECHANICAL ENGINEERING, Vol. 50, No. 4, February 2014, pp. 167-171.

EXTRA FILES

COMMENTS