At present, magnetic flow transmitter can not be used to measure gas and oil. Regarding the material of the magnetic flow transmitter body, we can provide mirror polished stainless steel structure or ordinary carbon steel structure. For general industrial use, carbon steel material can meet most occasions and has price advantages.
Magnetic flow transmitter is also named magnetic flow meter ,electromagnetic flow meter .It can only be applied to conductive liquids ,that conductive liquids moving in one direction will generate electromotive force, which will be sensed by the magnetic flow transmitter and converted into electrical signals. Magnetic flow transmitter is used to measure “full liquid” (the state in which the liquid completely fills the pipe), so we recommend that users make sure that the liquid in the pipe is full while using the magnetic flow transmitter.
At present, magnetic flow transmitter can not be used to measure gas and oil. Regarding the material of the magnetic flow transmitter body, we can provide mirror polished stainless steel structure or ordinary carbon steel structure. For general industrial use, carbon steel material can meet most occasions and has price advantages.
Can a “Flow transmitter” be used to measure mass flow of liquids?
First of all, people need to understand that there are many kinds of flow meters, among electromagnetic flow transmitters there are magnetic flow transmitters that measure mass volume, and flow transmitters that measure volume flow.
Different industries have different needs for flow meters. At present, flow transmitters for measuring volumetric flow are widely used, and our magnetic flow transmitter is a flow meter that specifically measures volumetric flow by electromagnetic induction.
Connection | Pipe type: flange / special specifications |
Insertion type: simple/ ball valve type | |
Diameter | Pipe type: DN4-DN2000 |
Insertion type: DN200-DN3000 | |
Range | Standard range |
Extended range | |
Special range | |
Accuracy | Pipe type: ±0.5%R/±1.0%R |
Plug-in type: ±2.5%R | |
Communication protocol | No communication output |
MOSBUS protocol | |
Output method | Frequency output |
Equivalent pulse | |
Digital pulse | |
Four-wire 4-20mA | |
Power supply mode | DC24V |
AC220V | |
Lithium battery | |
Housing | 304 stainless steel |
Carbon steel | |
Explosion-proof | Non-explosion-proof |
Exd [ia] iaqIICT5 | |
Lining | Neoprene |
Polyurethane rubber | |
Polytetrafluoroethylene | |
Teflon | |
PFA | |
Electrode | AISI316L |
Hastelloy-B | |
Hastelloy-C | |
Titanium | |
Tantalum | |
Platinum | |
Tungsten Carbide | |
Accessory Options | One-piece |
External keypad integrated | |
Split type | |
Submersible split type |
Flow Range Table of Electromagnetic Flow Meter :
Nominal Diameter | Range | Nominal Diameter | Range | Nominal Diameter | Range |
(mm) | (m 3 /h) | (mm) | (m 3 /h) | (mm) | (m 3 /h) |
DN10 | 0.14 ~ 1.40 | DN125 | 22.08~ 441.56 | DN700 | 692.37 ~13847.40 |
DN15 | 0.32 ~ 6.36 | DN150 | 31.79~ 635.85 | DN800 | 904.32~ 18086.40 |
DN20 | 0.57~ 11.30 | DN200 | 56.52 ~ 1130.4 | DN900 | 1144.5~ 22890.60 |
DN25 | 0.88~ 17.66 | DN250 | 88.31 ~ 1766.25 | DN1000 | 1413.0~ 28260.00 |
DN32 | 1.45~ 28.94 | DN300 | 127.17~ 2543.40 | DN1200 | 2034.7~ 40694.40 |
DN40 | 2.26~ 45.22 | DN350 | 173.09~ 3461.85 | DN1400 | 2769.4~ 55389.60 |
DN50 | 3.35~ 70.65 | DN400 | 226.08~ 4521.60 | DN1600 | 3617.2~ 72345.60 |
DN65 | 5.97~ 119.40 | DN450 | 286.31~ 5722.65 | DN1800 | 4578.1~ 91562.40 |
DN80 | 9.04~ 180.86 | DN500 | 353.25~ 7065.00 | ||
DN100 | 14.13 ~ 282.60 | DN600 | 508.68~ 10173.6 |