B. Strathen scite author profile

B. Strathen

2Publications

4Citation Statements Received

5Citation Statements Given

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University of Duisburg-Essen

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Thermal signal behaviour for air flow measurements as fundamentals to Time-of-Flight

Ecin

Engelien

Strathen

et al. 2010

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Thermal flow measurement is currently based on the principle of heat energy displacement caused by a flowing fluid (mass flow measurement). The heat is induced by a continuous heating element immersed into the fluid. This kind of sensor is only applicable for fluids with known homogeneity properties [3].The presented investigation is based on a discontinuous heating element using the pulsed Thermal Time-of-Flight principle (TTOF). The aim is to analyse a measurement technique which determines the flow velocity of any kind of fluid with unknown properties (volume flow measurement).The authors characterise the fundamentals of a measurement principle for determining the air velocity flow in a range from 0. 1 m/s to 2 mls. Therefore, analysing the thermal transfer behaviour of a differential volume of flowing air in a pipe is crucial. For this purpose a sensor model consisting of a filament as heating element and a movable thermocouple as detection unit in a pipe construction under flow conditions is employed [6], [7]. The air flow model represents a thermal transmission system. A filament serves as a heating element and describes the input signal into the system. The output signal of the system is obtained by the thermocouple. Considering a linear time-invariant (L TI) system the impulse responses are measured for different flow velocities by applying an approximated Dirac delta function to the filament, and additionally the 3dB cut-off frequencies are obtained.

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Transmission Line Model for Pulse Wave Analysis Accompanied on Experimental Measurements at a Human Model

Engelien

Strathen

Bai

et al. 2012

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B. Strathen

Thermal signal behaviour for air flow measurements as fundamentals to Time-of-Flight

Transmission Line Model for Pulse Wave Analysis Accompanied on Experimental Measurements at a Human Model

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