WASTEWATER FLOW CONTROL RESOURCES

WASTEWATER FLOW CONTROL MEASUREMENT SOLUTIONS

  • TransPort PT900

    What happens when you combine the proven track record of the TransPort® PT878 (TransPort PT900’s powerful predecessor) with the latest technology? You get performance, productivity, and a better user experience. The TransPort is the next evolution, and it’s here to make your job easier than ever.

  • AquaTrans™ AT600

    The AquaTrans AT600 liquid flow ultrasonic transmitter combines state-of-the-art flow measurement capability with a low-cost transmitter package that can be installed right at the process measurement point. It’s designed specifically for water and wastewater applications in full pipes. The all-digital AquaTrans AT600 has no moving parts and requires minimal maintenance.

  • SITRANS FMT020

    The new SITRANS FMT020 transmitter is a high performance, robust, intelligent product, designed for a wide range of applications requiring highly accurate and reliable flow measurement of conductive fluids.

  • SITRANS LT500 MultiRanger/HydroRanger

    SITRANS LT500 is the next evolution of digital level, flow, and pump controllers for radar and ultrasonic transmitters – or any 2-wire 4-20 mA device. It is the first choice for radar sensor measurements at 80 GHz and features single and dual point measurements, 6 relays, and Modbus RTU, HART, PROFIBUS DP, PROFIBUS PA, PROFINET.

  • Complete Flow Solutions

    Siemens’ extensive portfolio includes various flow measurement technologies, such as Coriolis, clamp-on ultrasonic, vortex, and differential pressure meters, catering to a wide range of industrial needs.

WASTEWATER FLOW CONTROL MEASUREMENT VIDEOS

In this compelling episode of the Water Online Show, host Angela Godwin sits down with Krishna Prashanth from ABB to explore how modern utilities are tackling the growing challenges of water demand, climate change, and urbanization through smart technology.

FLOW CONTROL AND MEASUREMENT

 

Flow measurement can be defined as quantification of the movement of water in a given channel. Flow can be measured either by determining the displacement and/or Velocity of the water. Water meters usually control measure and display total usage in cubic meters, on either mechanical or electronic registers. 

Flow can be divided into two main flows which are: Open channel flow and Closed conduit flow. Flow is controlled by use of valves at intervals to either to slow down, allow faster flow or completely shut down the flow. Some water meters usually perform both the function or making readings and controlling flow while others just conduct measuring only. 

Meters for reclaimed water contain special lavender register covers show that the water is non-potable. Velocity-type meters measure the velocity of flow through a meter of a known internal capacity. The speed of the flow can then be converted into volume of flow for usage. Since Multi-jet meters are usually very accurate in small sizes they are normally used for residential and smaller commercial uses. Turbine meters are not as accurate as jet meters and displacement meters at low flow rates. 

A compound meter is used where high flow rates are necessary. Magnetic flow meters are a velocity-type water meter, except that they use electromagnetic properties to determine the water flow velocity. In water treatment plants, measurement and control devices can be installed in the following locations: within interceptors or manholes, the head of the plant, in the force mains that lead to main tanks etc. Automatic Meter Reading has compelled producers to build pulse or encoder registers to provide electronic output for radio transmitters, reading storage devices, and data logging devices.