Ultrasonic flowmeters entered the domestic market not long after their introduction. Dalian Sonya Instrument Co. , a company that was established in 1992 and has its headquarters in Dalian, Shandong Province, China, is the entity responsible for the distribution of products manufactured by and Tokyo Keiso Co. in ultrasonic level sensors for liquids China. In the beginning, the chief technical engineer of the card began to gradually make contact with and investigate the ultrasonic flowmeter. Wang.
In order to take flow measurements or make flow detections in industrial environments, an ultrasonic flowmeter is required to be present. This is due to the fact that, in accordance with the present state of the market, ultrasonic flowmeters are utilized extensively in the flow detection of specific water treatment processes. In contrast to the pipeline flowmeter, which is only able to measure the flow of one pipe caliber, the ultrasonic flowmeter is able to detect the flow of multiple pipe calibers due to its portability, ease of installation and use, and relatively large flow detection range. In addition, the pipeline flowmeter is only able to measure the flow of one pipe caliber. Because of this, it is able to determine the flow rate in pipes of varying calibers. Because there is a high demand in the market for handheld ultrasonic flowmeters, there has been an increase in the number of domestic manufacturers of ultrasonic flowmeters. Because of this, the majority of users are finding it difficult to choose electromagnetic flowmeters because there are so many different options on the market. The ratio of the change in the amount of time it takes for the beam to move through the liquid to the flow velocity of the liquid is proportional. When there is no flow, the amount of time it takes for either sensor to send or receive sound waves is exactly the same.
A portable or handheld ultrasonic flowmeter, which is also known as an energy meter, can be used to measure the flow and heat of a wide variety of single-phase liquids that are capable of transmitting ultrasonic waves. This type of flowmeter is also known as an energy meter. A non-contact measurement method, a large measurement range, a large measurement range, no moving mechanical parts, and resistance to system pressure and harsh environments are all features of a handheld and portable ultrasonic flowmeter. It has been shown to be effective in a wide variety of water environments, such as fresh water, salt water, sewage, chemical liquids, rivers, and other types of water environments. The process of measuring liquids like water, fuel oil, and other types of fluids. The ultrasonic flowmeter's portability, ease of carrying, installation, and operation, as well as its relatively large flow detection range, are the primary advantages of this type of flowmeter. In addition, this type of flowmeter also has a relatively large flow detection range. It is able to determine whether or not there is flow through pipes of varying diameters.
It is inescapable that there will also be some ultrasonic level sensors for liquids disadvantages associated with the benefits that will be offered. The potential for the ultrasonic flowmeters to have the most significant drawback is that there is a chance that their accuracy is not even close to being as high as that of pipeline flowmeters. This is the potential for the ultrasonic flowmeters to be the most significant drawback. On the other hand, if there is a constant flow of fluid, this helps to stabilize the measurement, which in turn contributes to the accuracy of the measurement. If the fluid in question is moving in a chaotic manner, then the measurement data, on the other hand, will either not be reliable or will be impossible to measure. When measuring a pipe with a diameter that is greater than DN300, it is essential to make use of an extension bracket. This is the case regardless of the material being measured. Either the V method or the Z method can be used to attach the extension bracket to the wall. However, the Z method is the one that is recommended for installation in most cases because it produces a stronger signal.
V methodIt is strongly suggested that the V method be utilized for pipelines with diameters ranging from DN15mm to 200mm. During the process of installation, the two sensors are positioned so that they are aligned horizontally, and the center line is aligned so that it is parallel to the axis of the pipeline. Additionally, the center line is aligned so that radar type level transmitter it is perpendicular to the axis of the pipeline. The V method is distinguished from other approaches by the ease with which it can be applied and the precision with which it can measure. The installation accuracy is excellent when it comes to pipes with a diameter of less than DN50mm. Make sure that you are paying careful attention to the transmission time ratio, signal strength, and signal quality parameters.
Z methodIn situations in which the signal cannot be detected using the V method or in which the signal quality is poor, the Z method should be used instead of the V method. In addition, the Z method is the method of choice for pipes with diameters ranging from DN200mm to 6000mm. It is important to ensure that the horizontal distance between the two sensors along the axis of the tube is the same as the installation distance. Because ultrasonic waves are both transmitted and received directly in the medium propagation when the Z method is used, the signal does not have any reflection, and as a result, the signal strength attenuation is kept to a minimum. This is because the ultrasonic waves are transmitted and received directly in the medium propagation. Because of this, the Z method has a higher signal strength and is suitable for circumstances in which the attenuation of the ultrasonic signal is relatively high. Scaling in the pipeline, large caliber, impurities or bubbles in the medium, and large caliber are some examples of these situations. The careful selection of the point at which the installation will take place is the most important factor in determining the accuracy of the measurement. You need to take into account the impact of a number of different factors when deciding where to put an installation point. These factors include whether or not the pipe is full, whether or not the flow radar type level transmitter is steady, whether or not there is fouling, and whether or not there is interference. To ensure that the results of the measurement are accurate and reliable, it is necessary to fill the pipe with fluid at the point where the measurement is being taken. The readings coming from the sensor are completely normal.
