Measuring method and device for atmospheric ion mobility
An ion mobility and atmospheric ion technology, which is applied in the field of atmospheric ion mobility testing methods and devices, can solve problems such as inability to obtain ion mobility, and achieve the effects of wide range of use, prevention of peripheral discharge, and accurate results
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Embodiment 1
[0051] Embodiment 1: as Figure 1~2 Shown, in order to realize the test of atmospheric ion mobility, the present invention is based on figure 1 The circuit diagram shown is designed as figure 2 A test device for atmospheric ion mobility shown is a cylindrical structure, and the test device includes: four insulating columns 1 and five layers of circular plates that are suspended on the four insulating columns 1 and are parallel to each other; The distance between the plates of the circular plate is adjustable; the five-layer circular plate is metal cover 2, corona coil 3, control plate 4, upper plate 5 and lower plate 6 from top to bottom; among them: metal cover The plate 2, the corona wire disc 3 and the control disc 4 constitute the ion flow source area, and the upper pole plate 5 and the lower pole plate 6 constitute the test area.
[0052] The metal cover plate 2 is used as a shielding plate, and the metal cover plate 2 and the control panel 4 jointly control the discha...
Embodiment 2
[0056] Embodiment 2: the purpose of the present invention is to propose a kind of method of accurately measuring atmospheric ion mobility, and its basic idea is as follows:
[0057] The invention is based on Figure 1-2 The ion mobility measurement setup shown in the experiment is carried out by a rotary voltmeter and an ion flow plate can measure figure 1 The electric field intensity E at the position z=d of the middle bottom plate (that is, the lower plate) d and ion current density J. Then, a set of electric field E on the upper plate can be established based on formula (1) and formula (2) 0 and the equations for ion mobility k:
[0058]
[0059]
[0060] Where: the voltage V of the lower plate is determined based on the one-dimensional Poisson equation d for:
[0061]
[0062] Since the lower plate is grounded, V d = 0; formula (5) is obtained by transforming formula (6).
[0063] Solution (4) and (5) can directly get k:
[0064]
[0065] In the formula...
Embodiment 3
[0086] The present invention is as figure 2 In the shown ion mobility measuring device with a diameter of 1 m, a comparative test was carried out using the method of the present invention and the method of the IEEE standard, and the test results are shown in Table 1. According to Table 1, it can be seen that the ion mobility obtained by the method of the present invention is more stable than the original method.
[0087] Table 1. Negative ion mobility (d=0.099m, T=25.2℃, relative humidity ≈50%, air pressure 0.1003MPa)
[0088]
[0089]
[0090] The invention discloses a test method and device for atmospheric ion mobility, and its characteristics are: 1. Based on the test data, the ion mobility can be directly obtained by solving the equation strictly without using E 0 = 0 assumption, the result is more accurate. 2. The ion mobility can be obtained with only one set of test data, and there is no need to measure a large number of points in order to find a curve in which...
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