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BayMeters

Remote type magnetic flowmeter LDG

Remote type magnetic flowmeter LDG

$1,433.00 USD
$1,433.00 USD
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This is an all-inclusive reference price (product, international shipping, and import duties), based on a few selected configurations. Actual pricing may vary by size, options, and order quantity. Minimum order may apply for low-value items, while better pricing may be available for larger requirements. For a confirmed quote or to place an order, please contact us.
Diamater
Electrode Material
Cable Length
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Introduction

Electromagnetic flowmeter is only applicable to measure the flow of conductive liquid, which is wide used in water supply, sewage water measuring, industry chemical measuring etc. The remote type is with high IP protection class and can be installed in different locations for the transmitter and converter. Output signal can pulse,4-20mA or with RS485 communication.

Specification

Diameter Nominal
DN15(1/2”)~DN1000(40”)

Nominal Pressure

  • DN15 - DN250, PN ≤1.6 MPa (232 psi)
  • DN300 - DN1000, PN ≤1.0 MPa (145 psi)
  • DN1200, PN ≤0.6 MPa (87 psi)
  • Higher pressure can be customized

Accuracy

  • ±0.5% F.S. Flow speed >1 m/s (>3.28 ft/s)
  • ±0.5% F.S. ±2 mm/s Flow speed <1 m/s ( <3.28 ft/s)

Liner Material
Neoprene (CR), Polyurethane (PU), PTFE (F4), PFEP (F46), PFA

Electrode Material
316L Stainless Steel, Hastelloy C, Hastelloy B, Ti, Ta, Pt

Medium Temperature

  • Neoprene: -10…+60℃ (14℉~140℉)
  • Polyurethane: -10…+60℃ (14℉~140℉)
  • PTFE/FEP: -10…+120℃ (14℉~248℉)
  • PFA: -10…+180℃ (14℉~356℉)

Power Supply
85-245 VAC,50/60 Hz, 22 VDC-26 VDC

Electrical Conductivity

  • Water min. 20 μS/cm
  • Other medium min. 5 μS/cm

Structure Type
Compact type, Remote type

Ingress Protection

  • IP65 for converter
  • IP68 for sensor

Product Standard
JB/T 9248-1999

Measuring principle

Mag meter works based on Faraday's law, when the liquid goes through the pipe at the flow rate of v with a diameter D, within which a magnetic flux density of B is created by an exciting coil, the following electromotive E is generated in proportion to flow speed v:

E=K×B×V×D

Where:
E-Induced electromotive force 
K-Meter constant 
B-Magnetic induction density
V-Average flow speed in cross-section of measuring tube 
D-Inner diameter of measuring tube   

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