Fluid flow measurements by means of vibration monitoring

Campagna, M. M.; Dinardo, Giuseppe; Fabbiano, Laura; Vacca, Gaetano

doi:10.1088/0957-0233/26/11/115306

Cited by 26 publications

(15 citation statements)

References 13 publications

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“…The mean of all 50 data collection increments for Test 3 are shown in Fig 26 with standard deviation bars. The dominant frequency decreased consistently with increasing flow rate as expected [13,15,18]. A dominant frequency value is not shown for 0 LPM because the signal noise instead of the hose flow dominated the signal.…”

Section: Results and Discussion -Wired Accelerometers Test 3 -Dominansupporting

confidence: 65%

“…25). When water is flowing through a rigid pipe, the dominant frequency typically does decrease with increasing flow rate [13,15,18]. Thus, a similar trend was expected for flexible hose.…”

Section: Results and Discussion -Wired Accelerometers Test 3 -Dominansupporting

confidence: 53%

“…11, have been reported [21]. Based on previous research, the natural frequency of a rigid pipe system generally decreases with increasing water flow rate through the pipe [13,15,18]. Fig.…”

Section: Results and Discussion -Wired Accelerometer Test 1 And Testmentioning

confidence: 91%

“…Dinardo et al [17] and Campagna et al [18] used a laser Doppler vibrometer (LDV) to measure pipe vibrations due to internal fluid flow. Dinardo et al showed a linear relationship between the first harmonic amplitude of the transverse acceleration and the flow rate inside a pipe.…”

Section: Background Literaturementioning

confidence: 99%

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Measuring water flow rate for a fire hose using wired accelerometers for smart fire fighting

Brown¹,

Vogl²,

Tam³

2019

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A wired sensor network was created to measure water-flow rate in a fire hose. An integrated electronic piezoelectric (IEPE) accelerometer was chosen as the sensor to measure the flow rate based on the vibrations generated by water flowing through a fire hose. These sensors are small, lightweight, and they can be attached to the outside of the hose, not obstructing the water's flow path. A relationship was determined between the flow rate of the water and vibration detected by the accelerometer for a range of flow rates. The raw acceleration signal was used to calculate two metrics: the dominant frequency and the standard deviation of acceleration. In a future study, the relationship between the dominant-frequency metric and the flow rate will be applied to a wireless accelerometer network. The relationship will be used to determine the real-time fire hose flow rate critical for improving situational awareness on the fireground.

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Section: Results and Discussion -Wired Accelerometers Test 3 -Dominansupporting

confidence: 65%

“…25). When water is flowing through a rigid pipe, the dominant frequency typically does decrease with increasing flow rate [13,15,18]. Thus, a similar trend was expected for flexible hose.…”

Section: Results and Discussion -Wired Accelerometers Test 3 -Dominansupporting

confidence: 53%

“…11, have been reported [21]. Based on previous research, the natural frequency of a rigid pipe system generally decreases with increasing water flow rate through the pipe [13,15,18]. Fig.…”

Section: Results and Discussion -Wired Accelerometer Test 1 And Testmentioning

confidence: 91%

Section: Background Literaturementioning

confidence: 99%

See 2 more Smart Citations

Measuring water flow rate for a fire hose using wired accelerometers for smart fire fighting

Brown¹,

Vogl²,

Tam³

2019

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“…Vibrations from fluid or gas flow can occur in any relatively rigid pipe such as water, oil, and gas utility or industrial pipes. Wired sensors, including accelerometers, have been attached securely to the outside surface of rigid pipes to measure fluid or gas induced pipe vibrations to determine flow rate within the pipe in research settings as well as in the utility pipeline industry [3][4][5][6][7][8][9][10][11][12][13][14][15][16].…”

Section: Background Literaturementioning

confidence: 99%

Measuring water flow rate for a fire hose using a wireless sensor network for smart fire fighting

Brown¹,

Vogl²,

Tam³

2019

View full text Add to dashboard Cite

A wireless sensor network was created to measure water-flow rate in a fire hose. An integrated electronic piezoelectric (IEPE) accelerometer was chosen as the sensor to measure the flow rate based on the vibrations generated by water flowing through a fire hose close to the hose nozzle. These sensors are small, lightweight, and they can attach to the outside of the hose, not obstructing the water's flow path. A relationship between the dominantfrequency metric and the flow rate was applied and used to determine real-time water flow in a fire hose critical for improving fireground situational awareness. A nearly monotonic relationship of flow rate to the dominant frequency was established and then used in a custom graphical user interface for quick, real-time, visual referencing by fire personnel of flow rate in a fire hose. While more work is needed, such as improved physical robustness of the sensor-node assembly and increase robustness of the signal metric, this preliminary study showed the potential of a "smart" fire hose for improved situational awareness during a fire attack.

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