On account of the fact that the nozzle difficulties play a relatively limited role at first, they are often disregarded. When the nozzle exit is changed, the properties of the spray will gradually change, and this change may be seen and tracked. In the following article, Changyuan Technology Industry Co., Ltd., which is acknowledged as one of the most significant producers of spray nozzles in China, will provide you with an introduction to the techniques that may be used to identify spray nozzle failure. Size of the particles: Whenever the spray nozzle experiences wear or corrosion, the spray particles will get bigger. Additionally, the flow will rise, and the pressure will decrease. The majority of the time, it is impossible to think of this issue; nonetheless, the application outcomes may be used to examine the results. Alignment of the nozzles: It is necessary to have a complete uniform coverage when installing a nozzle with multiple flat fan pattern spray nozzles. This necessitates that all of the nozzles be accurately located, which means that all of the fan-shaped spray patterns must be accurately aligned in order to guarantee an accurate coverage area. All of the spray should be aligned in a parallel fashion with each other, and the angle between the spout and the spray should be between 5 and 10 degrees. If this does not occur, the coverage will be unequal throughout. Flow: When a centrifugal pump is used, the flow of the nozzle typically rises under pressure due to the continuous wear and tear of the nozzle exit. Due to the fact that this increase in flow is difficult to conceptualize, it is advised that flow detection be carried out on a consistent basis. At a particular pressure, flow detection may be read by a flow rate detector, or it can be used to collect the quantity of water at a certain moment in order to quantify it. Contrast these measurements with the readings on the sample, or compare them with the readings from the brand-new nozzle that has never been used before. Despite the fact that the pressure in the liquid pipeline decreases, the flow of water does not alter while using a reciprocating pump since the nozzle exit wear is not affected. Fan Spray Nozzle That Is Flat When the nozzle exit is broken, obstructed, or bonded, it is extremely simple to find the uneven spray pattern change of the fan nozzle. Spray shape: the spray pattern change is very easy to find. On the other hand, when the nozzle exit is progressively worn, it is difficult to think of a change in spray form, which may be discovered until the flow greatly rises. It is necessary to make use of specialized equipment or conduct a test in order to monitor the uniformity of the spray pattern when it comes to applications that call for very consistent spray coverage. Consequently, the fan-shaped spray nozzle with an oval nozzle outlet has tapering edges that are thicker than the fan shape or blade shape, and as a result, the overlap distribution between neighboring nozzles is excellent. It has been discovered that the angle that is encompassed by the spray form is decreasing as a result of the wear of the nozzle exit. One may then discover that a greater quantity of water is flowing in the middle, resulting in an increase in the distribution of water. Additionally, you may discover that it is hollow and shaped like a strip in the spray. In essence, the hollow cone nozzle is a liquid ring; the uneven spray pattern that it produces is primarily characterized by the fact that some portions are formed like strips. The unevenness of the spray pattern produced by solid cone, square, or oval spray nozzles is comparable to that of fan nozzles to a certain extent, and the center of the spray nozzles has a greater concentration of water. The change in spray form that occurs as a result of the internal vane of the solid nozzle being clogged is not consistent. Please go to www.spray-nozzle.net/ProductsType/fan-nozzle.htm for any more information that you may need.
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