Tek-Trol, 1650A-F-G-600-S-01-A-02-A-B-O-01, 24" DProbar Multiport Self-Averaging Flow Meter
Features:
- The unique dia-mond profile shape proved to offer good flow separation.
- High-flow turndown.
- Stable flow coefficient (K).
- Dia-mond Bar design ensures optimum strength.
- Low permanent pressure loss.
- Multiport Averaging: Improved performance with asymmetric flow profiles.
- Suitable for a wide range of pipe sizes.
- Allows insertion into pressurized pipes (Via a full port Valve and hot tap).
- Eliminates imposed piping between the primary element and DP transmitter.
The Tek-DP 1650A DProbar is a multiport self-averaging flow meter (SAFM). Its classical and modern proven design is associated with averaging pitot tubes for clean process fluid measurement applications. It is a primary flow meter for measuring gas, liquid, and vapors flowing in the pipelines and ducts based on principles of differential pressure measurement (DP).
Normally pitot tube sensors develop vortex pulses, which vary according to fluid flow rate changes. The dia-mond-shaped tube sensor and its strategically placed sharp edge fix the fluid separation point to compensate for this vortex effect. A 1650A DProbar meter comprises four basic components, an Outer impact /external averaging tube (Manufactured from a One-Piece Construction) Internal averaging tube, a Low-pressure chamber, and a DP Head with HP and LP impulse connections.
Due to the DProbar design, average composite static pressures are developed in the outer impact or external averaging tube and the internal averaging tube to provide higher accuracy and performance. This averaged static and pressure head is read at the meter head. The low-pressure value is located at a sensing port hole in the downstream section (rear) of the tube assembly, enabling flow rates to be correctly calculated. This averaging technique also helps to compensate for specific non-ideal fluid flow velocity profiles and offers superior measurement accuracy over a wider flow range than basic Pitot tube designs.
Constructions: