Air volume control method and air volume control system for main exhaust fan of sintering machine
A technology of air volume control and main exhaust fan, which is applied in the field of sintering technology, can solve the problems of material layer thickness change, high power consumption and loss, and affect the thickness of trolley material layer, so as to reduce energy consumption, save electric energy, and save electric energy. Effect
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Embodiment 1
[0040] figure 2 It is a flow chart of the method for controlling the air volume of the main exhaust fan provided in Embodiment 1 of the present application.
[0041] Such as figure 2 As shown, the method includes:
[0042] S201: Measure the material layer thickness of the material on the sintering trolley.
[0043] In this embodiment, the thickness of the material layer of the material can be measured by a direct detection method, or the material layer thickness of the material can be calculated by indirectly detecting the amount of material discharged by the distributing machine per unit time. Since the material layer on the sintering machine trolley usually takes 40 minutes or more from the sintering start point to the sintering end point during the sintering process, this results in that when detecting the material layer thickness, the closer to the sintering end point, the greater the time lag for starting adjustment. Big. Therefore, in the embodiment, when the thick...
Embodiment 2
[0095] image 3 It is a flow chart of the method for controlling the air volume of the main exhaust fan provided in the second embodiment.
[0096] according to image 3 As shown, steps S301-S303 are equivalent to steps S201-S203 in Embodiment 1. For detailed descriptions of steps S301-S303, please refer to the description of steps S201-S203 in Embodiment 1 above, which will not be repeated here.
[0097] S304: Detect the smoke components in the unit volume of smoke in the large flue according to the preset time interval.
[0098] Here, in this embodiment, the flue gas component in the unit volume flue gas in the large flue is O in the unit volume flue gas 2 , CO, CO 2 , N 2 , NO, NO 2 content. When detecting the smoke composition of the large flue, the smoke composition of the large flue is detected according to the preset time interval, which can make the detection more adaptable to the change of the system load. For example, when the system load, such as material la...
Embodiment 3
[0117] This example refers to Figure 4 process shown. according to Figure 4 As shown, steps S401-S406 are equivalent to steps S201-S206 in Embodiment 1. For detailed descriptions of steps S401-S406, please refer to the description of steps S201-S206 in Embodiment 1 above, which will not be repeated here.
[0118] S407: Calculate the difference between the target air volume of the large flue obtained from two adjacent calculations.
[0119] S408: Determine whether the difference is greater than a preset value.
[0120] When the judgment result is greater than, execute step S409; otherwise, execute step S410.
[0121] S409: Use the currently calculated target air volume of the large flue as an adjustment parameter.
[0122] S410: Use the average value of the target air volume of the large flue obtained by two adjacent calculations as an adjustment parameter.
[0123] S411: Send the adjustment parameter to the controller of the main exhaust fan.
[0124] When the target a...
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