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Computer Aided Design of Differential Pressure Flow Meters

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DOI: 10.4236/wjet.2014.22009    3,113 Downloads   5,336 Views   Citations

ABSTRACT

New methodology of designing the differential pressure flow meters for fluid energy carriers is developed in order to provide minimum uncertainty of results of flow rate measurement. This methodology is implemented in “Raskhod-RU” CAD system for computer aided design and calculation of differential pressure flow meters. “Raskhod-RU” CAD meets the requirements of new Standards implemented in CIS countries (GOST 8.586.1,2,3,4,5-2005) and provides accomplishment of the following tasks: verification of conditions (constraints) for application of the differential pressure method according to the requirements of new Standards; calculation of parameters of primary device, pipe straight lengths and flow meter in general according to the requirements of new Standards; calculation of uncertainty of results of fluid flow rate and volume measurement.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Pistun, Y. , Lesovoy, L. , Matiko, F. and Fedoryshyn, R. (2014) Computer Aided Design of Differential Pressure Flow Meters. World Journal of Engineering and Technology, 2, 82-91. doi: 10.4236/wjet.2014.22009.

References

[1] ISO 5167-1:2003. Measurement of Fluid Flow by Means of Pressure Differential Devices Inserted in Circular Cross-Section Conduits Running Full—Part 1: General Principles and Requirements.
[2] ISO 5167-2:2003. Measurement of Fluid Flow by Means of Pressure Differential Devices Inserted in Circular Cross-Section Conduits Running Full—Part 2: Orifice Plates.
[3] ISO 5167-3:2003. Measurement of Fluid Flow by Means of Pressure Differential Devices Inserted in Circular Cross-Section Conduits Running Full—Part 3: Nozzles and Venturi Nozzles.
[4] ISO 5167-4:2003. Measurement of Fluid Flow by Means of Pressure Differential Devices Inserted in Circular Cross-Section Conduits Running Full—Part 4: Venturi Tubes.
[5] GOST 8.586.1-2005 (ISO 5167-1:2003) Measurement of Flowrate and Volume of Liquid and Gas by Means of Standard Pressure Differential Devices—Part 1. Principle of Method of Measurement and General Requirements. (Russian)
[6] GOST 8.586.2-2005 (ISO 5167-2:2003) Measurement of Flowrate and Volume of Liquid and Gas by Means of Standard Pressure Differential Devices—Part 2. Orifice Plates. Technical Requirements. (Russian)
[7] GOST 8.586.3-2005 (ISO 5167-3:2003) Measurement of Flowrate and Volume of Liquid and Gas by Means of Standard Pressure Differential Devices—Part 3. Nozzles and Venturi Nozzles. Technical Requirements. (Russian)
[8] GOST 8.586.4-2005 (ISO 5167-4:2003) Measurement of Flowrate and Volume of Liquid and Gas by Means of Standard Pressure Differential Devices—Part 4. Venturi Tubes. Technical Requirements. (Russian)
[9] GOST 8.586.5-2005 (ISO 5167-5:2003) Measurement of Flowrate and Volume of Liquid and Gas by Means of Standard Pressure Differential Devices—Part 5. Technique for Making the Measurements. (Russian)
[10] Pistun, Y. and Lesovoy, L. (2006) Normalization of Pressure Differential Flow Meters. Publishing House of Institute of Energy Audit and Energy Carrier Accounting, Lviv, 576. (Ukrainian)
[11] Pistun, Y., Lesovoy, L., Matiko, F., Markovskyi, D. and Lesovoy, R. (2007) “RASKHOD-RU” CAD computer program. User manual. Publishing House of Institute of Energy Audit and Energy Carrier Accounting (www.ieoe.com.ua), Lviv, 128. (Ukrainian)
[12] Fedoryshyn, R., Matiko, F. and Pistun, Y. (2007) Audit of Natural Gas Accounting Units in Order to Improve Measurement Accuracy. International Youth Conference on Energetics, Budapest, 31 May 2007, 181-182.

  
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