8 research outputs found

    Time-trace of sensor tip motion in the wall-jet flow.

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    <p>Tip motion in streamwise direction after start of the fan of the wall-jet facility at <i>t</i> = 8<i>s</i> (<i>U</i><sub>0</sub> = 0.5 <i>ms</i><sup>−1</sup>).</p

    Polar plot of the directional tests.

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    <p>Directional response of the sensors for four different wind-directions generated with the wall-jet facility (north N, east E, south S, west W). The plot shows at the cross-symbols the mean response of the qualified sensor and the diameter of the small circles indicate the variation of all others being tested, partly failing to comply with our quality criterion. The larger dashed circles indicate the tested velocity of the jet flow. Note, that the tip displacement coordinates of Q are related to the x-y plane of the camera sensor parallel to the bottom wall. The coordinate system of the camera was rotated such that the direction to North is parallel to the positive y-direction in the plot.</p

    Power spectrum in the wall-jet flow.

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    <p>Power spectrum of the tip motion signal after start of the jet-flow in the quasi-steady state shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0179253#pone.0179253.g006" target="_blank">Fig 6</a>.</p

    Foot fixation of the stem.

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    <p>The stem of the pappus sensor is fixated at the bottom wall in a thin silicone rubber membrane. Sensor at rest (left) and under strong wind load (right). Note that the stem keeps its straight shape under load.</p

    Pictures of the pappus sensor fixated with the stem at the wall.

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    <p>Pictures show the side view (left) with a scale bar and the top view with higher magnification (right).</p

    Sensor step response.

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    <p>a) tip motion back to rest position after abrupt unloading. b) sensor frequency response.</p

    Sketch of the wall-jet apparatus.

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    <p>Air flow is generated with a planar nozzle flow that is tilted at an angle of <i>β</i> = 45° towards the bottom wall of the research facility and generates a wall-jet in direction of the sensor. The sensor is located at the centre of the bottom wall and the nozzle exit is at a distance of 20 slot heights <i>H</i> away. The 2D jet flow exiting the nozzle is pointing towards the sensor in <i>x</i>-direction.</p

    Velocity profile.

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    <p>Velocity profile of the wall-jet at <i>x =</i> 20<i>H</i> downstream of the nozzle (blue circles: measurements; solid line: fit with self-similar solution for a laminar wall jet, maximum velocity is <i>U</i><sub>0</sub>)</p
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