In petrochemical, chemical, electric power, metallurgy, municipal, pharmaceutical and other industries, the technical difficulty and complexity of flow measurement are quite high. Research flow measurement plays an important role in improving product quality, reducing enterprise operating costs, and solving energy conservation and environmental protection. The electromagnetic flowmeter has the advantages of no resistance and no pressure loss, can fully reduce the resistance in the pipeline, meets the requirements of energy saving and consumption reduction, and thus the electromagnetic flowmeter has been widely concerned in the industry. However, although the electromagnetic flowmeter has the above advantages, and is much better in reliability and stability than most other types of flowmeters, in the actual use process, some problems will still occur, the following is a list of electromagnetic flowmeters for everyone. Points to note in engineering applications.
01 transmitter measured at any time to select the position of the liquid filled catheter can be installed to prevent the liquid in the conduit since the measurement does not produce the illusion of the pointer is not zero point. Vertical mounting reduces errors due to liquid flow through the bubbles on the electrodes. If placed horizontally, the two electrodes of the flowmeter must be kept at the same level to prevent it from being insulated by deposits or air at the top of the tube.
02 If necessary, the tube can be emptied, and the built-in empty tube detection line will stop the accumulation and flow signal output.
03 Fluid flowing in an anode-protected pipe, when installing an electromagnetic flowmeter, the following points should be observed: In order to allow the fluid to be well grounded, the ground ring should be used; when the sensor is connected with the pipe, there should be an insulating pad between the flanges. Insulation sleeves are also used on the screw.
04 When the electromagnetic flowmeter is installed on the grounded metal pipe, the system potential balance is realized by the grounding terminal on the electromagnetic flowmeter transmitter, that is, the copper core wire with a cross-sectional area of ​​not less than 6mm2 is connected to the grounding terminal; Installed on an ungrounded metal pipe, both flanges are connected to the pipe flange through a copper core wire with a cross-sectional area of ​​at least 6 mm2, and grounded; connect the transmitter or sensor junction box to the ground terminal to achieve System potential balance; when the electromagnetic flowmeter is installed on a plastic pipe or a pipe with an insulating lining, the system potential balance is achieved by an additional grounding ring, and the grounding ring is connected to the grounding terminal through a copper core wire having a cross-sectional area of ​​at least 6 mm2.
05 electromagnetic flow transmitter should be installed in the indoor dry and ventilated place, avoid installation in places where the ambient temperature is too high, should not be subjected to strong vibration, try to avoid equipment with strong magnetic field, such as large motor, transformer, etc., to avoid installation In the case of corrosive gases, the installation location is easy to access, which is the environmental condition to ensure the normal operation of the transmitter.
06 In order to ensure that the measuring tube of the electromagnetic flow transmitter is filled with the measured medium, the transformer is installed vertically, and the flow direction is from bottom to top, especially for the liquid-solid two-phase flow, it must be installed vertically. If the site is only allowed to be installed horizontally, it must be ensured that the two electrodes are at the same level.
07 Electromagnetic flow transmitter should be equipped with valves and bypass at both ends.
The millivolt AC potential measured by the electrodes of the 08 electromagnetic flow transmitter is based on the liquid potential in the transmitter. In order to stabilize the liquid potential and maintain the potential of the transmitter and fluid to ensure stable measurement, the transmitter shell and the metal tube should have good grounding at both ends, and the converter housing should also be grounded. The grounding resistance should not exceed 10 Ohm, cannot be shared with the ground wire of other electrical equipment. If the transmitter housing is not guaranteed to be in good contact with the metal tubing, connect them with metal wires and ground them reliably.
09 In order to avoid interference signals, the signal between the transmitter and the converter must be transmitted by shielded wires. It is not allowed to place the signal cable and the power cable in parallel in the same cable. The length of the signal cable should not exceed 30m.
10 Converter installation site should avoid AC and DC strong magnetic field and vibration, the ambient temperature is -20~50 °C, and it can not contain corrosive gas, the relative humidity is not more than 80%.
11 In order to ensure the normal operation of the electromagnetic flowmeter and reduce the measurement error, the electromagnetic flowmeter should meet certain straight pipe requirements before and after. According to JJG 1033-2007 "Electromagnetic Flowmeter Verification Regulations" test standard requirements, usually the front straight pipe section should reach 10D, and the rear straight pipe section should be 5D.
12 installation location. The electromagnetic flowmeter can be installed vertically and horizontally, but vertical installation is recommended, and the fluid to be measured flows from bottom to top. It can also be installed horizontally, but with the two electrodes on the same level. When installing horizontally, make sure that the measuring catheter is filled with liquid. When the main line is a vertical line, in general, the water flow is required to be bottom-up, and try not to go from top to bottom. The latter is prone to cause large fluctuations in traffic. It is also important to install the full pipe, followed by the distance between the straight pipe. Choose a place that is easy to maintain and convenient for activities. The flowmeter should be installed at the rear of the pump and must never be installed on the suction side: the valve should be installed on the downstream side of the flow.
13 Because the electromagnetic flowmeter measures the weak potential, it is necessary to eliminate all external disturbances to accurately measure, so good grounding is a necessary condition to ensure the stable operation of the electromagnetic flowmeter. Usually grounding is achieved by a grounding ring or a reference electrode in the sensor and a ground connection to the piping system.
14 The flowmeter should be installed away from all magnetic sources (such as high-power motors, transformers, etc.).
15 Like other flowmeters, electromagnetic flowmeters also have a degree of protection. Usually the integrated protection class is IP65, and the split type is IP68 (for sensors). If the customer has requirements for the instrument installation environment, the installation site is underground. Or some other wet place, it is recommended that customers choose a split type. In order to avoid damage to the instrument caused by wrong selection.
16 electromagnetic flowmeter can measure corrosive liquids, but customers should correctly provide other measuring media properties at the beginning of ordering, so as to avoid errors in electrode selection during selection, which leads to the scrapping of sensors in the later use process, which brings inconvenience and economy to customers. The loss on.
Although the reliability of the electromagnetic flowmeter 17 is better, under normal circumstances it will not be damaged, but because of its principle of decision, the sensor electrodes and liquid contact surface has, over time, the electrode surface more vulnerable to contamination. Therefore, under normal circumstances, the electromagnetic flowmeter is recommended to be removed by the customer. It is recommended to remove the electrode once a year to one and a half years to ensure the measurement accuracy of the flowmeter. Any instrumentation needs to be “maintainedâ€, and electromagnetic flowmeters are no exception.
Manifold Filter, Spray guns contain filters that help provide a cleaner spray out of the gun tip. Here are some Spray Gun filter questions we`ve answered in the past, more than once.
1. What does a spray gun filter do?
The filter, which typically resides inside the handle of the gun, filters the paint one last time before it leaves the spray gun. The gun filter prevents debris from entering the tip. Preventing debris from entering the tip helps eliminate blockage, and therefore downtime, and keeps the spray surface clean.
2. Are there different types of filters? Which should I choose?
In general, the main difference in spray gun filters is in the screen size. You`ll want to choose a finer screen mesh for lacquers and fine finishes. A larger mesh can be used for latex paints.
3. How often do gun filters need to be replaced?
This can vary, too, depending on the amount of [trash", larger unwanted particulates, and the size of the mesh of your filter. Fine filters will need to be replaced more often. Why not clean them? Well, you can clean a filter, but generally these filters become so clogged over time that it is not worth the amount of work, and time, to clean them. It`s usually easiest to replace.
4. How often do gun filters need to be cleaned?
It is recommended that you clean the gun filter every time you clean your sprayer. This will give you the longest life for your spray gun filter. Eventually, though, you will have to replace the filter. Filters don`t wear out, as their made of stainless steel that prevents rust and corrosion, but they do accumulate trash and waste, despite the best efforts to keep them clean.
If you`re using an extremely fine mesh filter there is a chance that you could need to clean the filter during a job. The easiest way to tell a filter needs to be cleaned, during spraying, is the spray gun`s reversible tip begins to clog on a constant basis.
5. What would happen if you used the wrong filter for the tip?
It`s important to use the right filter mesh for the paint you`re spraying. If you use a wide mesh with a tip too small you`ll have a tip that constantly clogs. Using a fine mesh with a wide open tip you`d run into paint flow restriction. This can put unwanted stress on the sprayer, possibly reducing its lifespan.
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