Created: 2020-08-1701:36 PM. Last Modified: 2021-06-0307:51 AM
Liquid Level Interface with a Free Space / Non-Contacting Radar
A free space radar can be used as part of a liquid level interface solution. The radar cannot work alone to accomplish this. By using one of two solutions, a free space radar can solve this challenging application that stymies many solo-operating guided wave radars.
Solution #1: Free space radar with d/p level and a PLC (SCADAPack™ RTU) or DCS do the interface equation. Here, the d/p is actually calculating the interface; when coupled with radar, the level can fluctuate in a relatively normal fashion.
Solution #1: Free space radar with SCADAPack™ 4102. The SCADAPack™ 4102 Modbus™ Multivariable Transmitter has a built-in PID controller. It does the job of both a d/p level and a PLC. It generates an analog or Modbus output.
As radar becomes more popular in the marketplace (fastest-growing level technology) I believe more customers are looking for additional uses.
Created: 2020-10-0601:17 PM. Last Modified: 2020-10-0601:19 PM
Re: Liquid Level Interface with a Free Space / Non-Contacting Radar
When guided wave radar is applied properly for interface measurement, it's great. The only issue is that there are quite a few criteria that must be met in order for the radar to operate properly. Please see this excerpt from the operating instructions from a typical guided wave radar:
Upper medium (L2) • The upper medium must not be conductive • The dielectric constant of the upper medium or the actual distance to the interface must be known (input required). Min. dielectric constant: 1.6.You can find a list of dielectric constants on our home page • The composition of the upper medium must be stable, no varying products or mixtures • The upper medium must be homogeneous, no stratifications within the medium • Min. thickness of the upper medium 50 mm (1.97 in) • Clear separation from the lower medium, emulsion phase or detritus layer max. 50 mm (1.97 in) • If possible, no foam on the surface
Lower medium (L1) • The dielectric constant must be 10 higher than the dielectric constant of the upper medium, preferably electrically conductive. Example: upper medium dielectric constant 2, lower medium at least dielectric constant 12.
Gas phase (L3) • Air or gas mixture • Gas phase - dependent on the application, gas phase does not always exist (d2 = 0)