For any magnetic flowmeter to function correctly, it must have three connections (including a ground) to the process liquid passed from the magnetic flow tube onto the magnetic flow transmitter. About 80 percent of the time, problems with the flow measurement readings provided by a magnetic flowmeter can be traced directly to improper solution ground connections.
Two of the three connections are passed from the magnetic flow tube’s measuring electrodes, which sense the force created within the magnetic flow tube based on Faraday’s Law, onto the magnetic flow transmitter via the two electrode signal cable leads. The magnetic flow transmitter then represents this energy as a measurement of flow rate. The required third connection to the process is often referred to as the signal ground (SG). This SG connection is a critical connection from the process liquid passed over to the flow tube’s body and then onto the magnetic flow transmitter via the solution ground lead portion of the electrode signal cable.
The SG connection is the reference point of the measurement. It is required for a magnetic to achieve a stable zero flow measurement reading consistently and provide accurate measurements during flow. Without this reference SG connection, there can be no confidence in the flow rate measurement.
Two main causes are responsible for the majority of solution ground connection problems. First, the SG connection from the process to the magnetic flow tube’s body/case is missing. Secondly, the SG connection fails to pass properly from the magnetic flow tube’s body onto the magnetic flow transmitter’s SG terminal.
Grounding Rings vs. Grounding Electrodes
To determine when to use grounding rings or grounding electrodes, the first thing that must be understood is their primary function and even required. The primary function of grounding rings or grounding electrodes is to provide the required SG connection when an unlined metal process pipe is not available.
Grounding rings are metal rings that make contact with the process liquid. These rings are installed between the process pipe and the magnetic flow tube. These metal rings must then be attached to the flow tube’s a body/case or flange to pass on this SG connection—usually by some wiring or bolting method, depending on the grounding ring style used. Examples with detailed illustrations are shown in this article. In addition to providing the required Solution Ground, a grounding ring on the upstream side of the magnetic flow tube also provides a fair degree of liner protection to the flow tube liner’s leading edge when used in moderately abrasive applications.
Figure 2. Typical wafer-style magmeter flowtube with supplied SG wires installed in flanged metal process pipe.
Figure 3. Flanged-style magmeter flowtube with SG grounding straps and rings installed in nonmetallic pipe.
Magnetic grounding electrodes are simply one or more additional electrodes, other than the flow tube’s measuring electrodes, that contact the process liquid while also making contact with a metallic portion of the flow tube’s body. When using a flow tube with grounding electrodes, no additional wiring is required to pass the SG connection onto the flow tubes body/case—it is done internally. When using flow tubes that already contain grounding electrodes, grounding rings are generally not required.
Contact us to determine which flow tube models are available with grounding rings and grounding electrodes.
For many of the more hazardous process liquid applications, magnetic flowmeter systems are often the preferred technology simply because they are available with numerous liner and exotic electrode material choices, thus providing compatibility with many hazardous chemicals. If grounding rings or grounding electrodes are required, they should be made from the same material as the measuring electrode based on chemical compatibility with the process liquid.
In hazardous process liquid applications, the adjacent process piping is usually nonmetallic or lined. Because grounding rings made from exotic materials are rather expensive, grounding electrodes can offer substantial cost savings over grounding rings and provide easier installation with fewer leak-points.
Does the Magnetic Flowmeter Need 1 or 2 Grounding Rings?
For decades, two grounding rings were always the recommendation when required for magnetic flow meters. When using older style legacy magnetic flow transmitters, this is still true. However, with current intelligent microprocessor-based magnetic flow transmitters, two grounding rings are no longer necessary, as the same level of zero stability and accuracy can be provided with just one grounding ring. This not only reduces the overall cost of materials but also makes installation easier.
The grounding ring typically installs on the upstream side of the magnetic flow meter. In addition to providing the required solution ground, placing this grounding ring on the upstream side of the flow tube also provides a fair degree of liner protection to the leading edge of the flow tube’s liner when used in moderately abrasive applications.
How Magnetic flowmeter Flowtube Installation Affects the Solution Ground
Proper flow tube installation is critical for correct SG in magnetic flow meters. In the case of metal process piping, a properly installed flow tube means that no additional solution grounding rings or electrodes are required. For nonmetallic pipe or liner configurations, a solution ground method is required, and careful attention must be paid to grounding ring or electrode connections and placement. The following provides some tips for proper SG connections to the magnetic flow transmitter.
SG Connection with Metal Process Pipe
Flanged-style flow tubes: The most common method of passing the SG connection from the process itself onto the magnetic flow tube’s body/case is through flanged, unlined, metal process pipe bolted to a flanged magnetic flow tube (Figure 1).
When the metal flanges on each side of the magnetic flow tube are bolted to the magnetic flow tube’s metal flanges, the SG connection is made. It passes onto the magnetic flow tube’s body/case, and eventually to the magnetic flow transmitter. In this metal-to-metal installation scenario, neither grounding rings nor grounding electrodes are required.
Wafer-style flow tubes: Wafer style flow tubes have no flanges of their own. Therefore, when a wafer-style magnetic flow tube is mounted between flanged, unlined, metal process piping, the proper method of passing the SG onto the flow tube is by attaching supplied SG wires that ship with the flow tube. Be sure to connect these wires to the metal process pipe flanges on each side of the wafer flow tube (Figure 2).
In this installation scenario, grounding rings are not required. Note that grounding electrodes are not available on wafer-style magnetic flow tubes; the supplied wires are to be used.
SG Connections with Nonmetallic/ Plastic/PVC/Lined Process Pipe
Flanged-style flow tubes: When flanged-style flow tubes are mounted between nonmetallic, plastic, PVC or lined process piping, the SG must be passed to the flow tubes body/case through some path other than the process piping flange bolts. In such installation scenarios, either grounding rings or grounding electrodes are required (Figure 6).
For grounding-ring applications, if traditional orifice plate-style, or Type C, grounding rings are used, the grounding rings must be attached to the flow tube’s body/case using grounding straps. These straps are attached to the flow tube’s flanges or grounding wires attached to a plug located on its remote junction box or top-mounted transmitter interface plate. Type E grounding rings utilize customer-supplied bolts rather than grounding wires or grounding straps.
For process pipe that is lined with a nonmetallic material, the ring configuration is slightly different. Figure 4 shows the application of Type E and Type C grounding rings inlined process pipe configurations.
Wafer-style flow tubes: When wafer-style flow tubes are mounted between nonmetallic, plastic, PVC, or lined process piping, grounding rings are required. The SG must be passed on to the flow tube’s body by connecting the attached, supplied SG connection wires to the grounding rings (Figure 6.)
As with flanged flow tubes, if traditional orifice plate-style, or Type C, grounding rings are used, the grounding rings must be attached to the wafer-style flow tube’s body/case using grounding straps or wires. The grounding wires are attached to a lug located on its remote junction box or top-mounted transmitter interface plate. Type E grounding rings utilize customer-supplied bolts rather than grounding wires or grounding straps.
It is important to remember the purpose of the solution ground connection is to serve as a reference point of the flow measurement. This lets the magnetic flowmeter read a stable zero flow and achieve accurate measurement in flow conditions. The placement and type of SG and connection devices are critical in meeting this goal. The method used varies with the range of flowmeter body types, process pipe construction, and liner materials. When all of these factors are considered and the proper Signal Ground configuration is employed, results will meet performance and consistency expectations. Without a properly installed solution grounding method, confidence in the flow rate measurement will be diminished.