Keyence flow meter. The FD-G Series Clamp-on Gas Flow Meter from Keyence can be easily installed from outside the pipe with only a screwdriver. These devices can measure flow rate, temperature, and concentration without pipe modification or contact with the liquid. Learn about the innovative clamp-on flow meter that can be installed without cutting pipes, supports large size pipes, and has superior environmental resistance. In addition to metal and hard plastic piping, hoses (including high-pressure hoses) can also be supported. Learn about the features and benefits of KEYENCE's FD-R series Clamp-on Flow Meter, which can monitor flow and temperature of various liquids in pipes up to 8" without pipe modification. Its high accuracy and repeatability make it ideal for use in industries such as oil and gas, chemicals, food and beverage, water treatment, Fire suppression systems and more. keyence flow meter is equipped with high-precision sensors capable of capturing the smallest fluctuations in traffic. . The flow meter can detect various pipe materials and liquids with high accuracy and reliability. This selection of ultrasonic compressed air flow meters provide ease of installation and portability. See catalog, price, interactive selection tool, and more. KEYENCE offers various types of flow sensors for liquid flow rate and volume measurement, such as clamp-on, electromagnetic, and Coriolis sensors. This series provides stable flow rate measurement regardless of the pipe or liquid. These meters can be installed as both a permanent or temporary installation to validate compressed air flow. These devices can be used on small tubes to large pipes, with no pipe modification or risk of clogging or contamination. The FD-H Series clamp-on flow sensor is easily installed, without any pipe modification, by simply clamping to the outside of a pipe, tube or hose. KEYENCE offers various types of flow sensors and meters for liquid and gas, such as clamp-on, electromagnetic, and Coriolis. bjc iycid zfp oknvul aukvixu ypjih ntjfsm olivgfu igikqt wtqvmgoe