Ki Won Lim scite author profile

Abstract:In order to scrutinize the fluid conductivity effects on the electromagnetic flowmeter(EMF) characteristics, a small scale EMF was designed and fabricated. The measuring tube has a 3 mmⅹ4 mm rectangular cross-section, 9 mm length, and a 2 mmⅹ3 mm plate electrode and a Ф mm 5 . 1 point electrode. The design parameters, such as the magnetizing frequency and the number of coil turns, and the diameter were optimized. The EMF was tested with a gravimetric calibrator and showed good linearity in the range of 0 to 1.17ⅹ10 -5 m 3 /s. The fluid conductivity was varied between 3 and 11 cm / S μ , and the magnitude of the flow signal was proportional to the fluid conductivity and the wetted area of the electrode. The design information and the test results provide flow measurement techniques for very low flowrate. † Corresponding Author, kwlim@kriss.re.kr

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A Study on the Uncertainty Estimation of Flowmeter Calibrator with Two Master Flowmeters

Choi¹,

Lee²,

Lim³

2004

Transactions of the Korean Society of Mechanical Engineers B

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Flow Signal Characteristics of an Ultrasonic Transducer at a High Temperature

Lim

Rho²

2011

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The exact measurement of feed water flow is the major factor in nuclear power plant efficiency. However, due to the fouling problem, the venturi nozzle used in feed water measurement frequently causes a decrease in the efficiency of the nuclear power plant. To avoid this problem, ultrasonic technology is a reasonable candidate. The temperature of the feed water is about 300 °C. The commercial piezoelectric element used in an ultrasonic transducer preserves its characteristics up to a temperature of 120 °C. This problem must be overcome in order to use an ultrasonic flowmeter to measure the feed water flow. To address this issue, we designed a thermal block to insulate the high temperature from the pipe line. The method we used included a clamp-on type transducer and a driving circuit with a transit time difference method. The signals from the driving circuit were measured and the ultrasonic transducer assembly was tested at room temperature and at a high temperature of 300 °C. The test results revealed that the transit time difference was reasonably proportional to the flow velocity at room temperature, and the signals of the transducer installed on the pipe line were the same at 300 °C as those at room temperature. This result confirmed that the ultrasonic pulse was working well through the thermal block and in the high temperature fluid.

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Ki Won Lim

Relative errors in evaluating the electromagnetic flowmeter signal using the weight function method and the finite volume method

Measurement of gas calorific value using electric substitution method

Flow Signal Characteristics of Small Scale Electromagnetic Flowmeter in Low Conductivity Fluid Measurement

A Study on the Uncertainty Estimation of Flowmeter Calibrator with Two Master Flowmeters

Flow Signal Characteristics of an Ultrasonic Transducer at a High Temperature

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