VA 550 - Thermal mass flow sensor for flow measurement
Insertion type sensor for demanding industrial applications, comes with ATEX approval for Ex zones or DVGW approval for use in Natural gas.
Monitoring compressed air consumption is a critical aspect of wastewater treatment as it regulates the air flow in wastewater treatment plants. CS INSTRUMENTS' thermal mass flow sensors are the most suitable devices for Accuracy Measuring air flow in this application. The wastewater treatment sector is critical to protecting public health and the environment by collecting, treating and disposing of wastewater from homes, businesses and industry.
CS INSTRUMENTS has developed thermal insertion type sensors that can be inserted directly into a pipe or sewer via a threaded fitting and ball valve. Thanks to their Robust design and high-quality materials, these sensors are extremely reliable and precise, even in harsh industrial environments or outdoors. They are also cost-effective, easy to install and require minimal maintenance.
Thermal mass flow sensors are used in several important areas of wastewater treatment. Firstly, Measuring the aeration flow in the aeration tank is critical to the proper operation of the wastewater treatment plant. Accuracy in measuring the aeration airflow is important to promote the growth of microorganisms that break down pollutants. Thermal mass flow sensors can accurately measure the airflow used for aeration, allowing for precise control, balance and regulation of the aeration process.
Secondly, thermal mass flow sensors can also measure the flow of compressed air used in various processes such as agitation or mixing. This ensures accurate monitoring of the process and optimises Energy consumption. They can also measure the exhaust air flow in wastewater treatment plants.
To summarise, CS INSTRUMENTS' thermal mass flow sensors are an innovative solution for measuring the air required in wastewater treatment plants. This ensures effective wastewater treatment while saving energy at the same time.