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Home Products Liquid Turbine Flow Meters Small-Bore Turbine Flow Meter

Small-Bore Turbine Flow Meter

OEM Skid and Laboratory Build

Accuracy +/- 0.5% of rate
Line sizes 1/8″ to 1/2″ (DN4 to DN15)
Integrated 3.6 V Li battery (V code)

  • 304 stainless body standard
  • Compact integrated transmitter
  • 3.6 V lithium battery option
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LWGY Liquid Turbine Flow Meter; instrument body with display head

Small-bore turbine flow meters play a key role in OEM modular skid integration, analytical and laboratory liquid flow measurement, pilot-plant batch-reactor feed, and fuel-cell or electrolyser test-bench coolant loops. The LWGY covers Line sizes 1/8″ to 1/2″ (DN4 to DN15) with a compact integrated transmitter for direct skid-frame mounting. The 304 stainless body is standard; 316L upgrade for analytical chemistry; ceramic bearing for high-purity service.

Benefits

  • Line sizes 1/8″ to 1/2″ (DN4 to DN15)
  • Compact integrated transmitter for skid-frame mounting
  • 3.6 V lithium battery V-code option
  • Accuracy +/- 0.5% of rate
  • 304 stainless standard, 316L analytical upgrade
  • Ceramic bearing option for high-purity service

Typical applications

Four small-bore applications for compact OEM and lab measurement.

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OEM modular skid integration

Water-treatment dosing, fuel-blending, lube-additive, sample-conditioning skids at DN4–DN10. Transmitter mounts on skid frame; V-code battery for commissioning.

🧪

Analytical and laboratory liquid flow measurement

Labs and USP utility loops on chromatography eluate, USP DI water, dilution feeds. 316L + ceramic bearing for high-purity service; compact transmitter mounts on bench.

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Pilot-plant batch-reactor feed measurement

Pilot/R&D reactors on solvent feed, reagent dosing, recovered-solvent return. DN6–DN15 covers 0.06–8 m³/h; ±0.5% of rate across the range.

Fuel-cell and electrolyser test-bench coolant

Fuel-cell stack and PEM electrolyser test benches on coolant water/glycol for stack-cooling under transient cycling. Compact integrated mount; high-frequency pulse captures throttle steps.

Specifications

Measurement principleVelocity-type turbine with magnetic-pickup pulse output
StandardJB/T9246-2016 turbine flow sensor
Line sizes1/8″ to 1/2″ (DN4 to DN15); small-bore OEM and lab range
Accuracy+/- 0.5% of rate standard (custody class)
Repeatability+/- 0.1% of rate
Flow ratesDN4: 0.04 to 0.4 m³/h · DN6: 0.06 to 0.6 m³/h · DN10: 0.15 to 1.5 m³/h · DN15: 0.4 to 8 m³/h
PressurePressure up to 25 MPa (3,625 psi); ANSI 150 / 300 / 600 / 900 / 1500 / 2500 LB
Compatible mediaWater (1.0 cSt) · deionized water · methanol (0.55 cSt) · ethanol (1.2 cSt) · acetone (0.3 cSt) · hydrocarbon solvents (0.5-1.5 cSt) · glycol-water heat-transfer blends (1.2-2.5 cSt) · lubricant additive blends (5-9 cSt warm); all clean liquids ≤ 10 cSt
Temperature Application−20 to +120 °C (room-temperature type, standard) · −40 to +180 °C (high-temperature type)
Ambient temperature−20 to +65 °C
Body material304 stainless standard for clean OEM skid and lab service · 316L upgrade for analytical chemistry and pharma utility · PP polypropylene custom for dilute corrosive aqueous chemistry on application review
Impeller2Cr13 martensitic stainless standard · 430F ferritic alternative
BearingTungsten carbide standard · ceramic bearing option for high-purity lab and high-RPM service (recommended on USP-grade water and semiconductor UPW lab loops)
Output signalsPulse 3-wire, 4-20 mA 2-wire / 4-wire, RS-485 Modbus RTU, HART
Power supply24 V DC standard, 3.6 V lithium battery V-code option (~0.3 mA standby, 5-year typical for off-grid OEM skid and lab installations)
Form factorCompact integrated transmitter for direct skid-frame mounting; threaded G1/2 or G3/4 connection per bore
Transmission distancePulse 3-wire ≤ 300 m, 4-20 mA ≤ 1500 m (load ≤ 500 Ω), RS-485 / HART ≤ 1200 m
Ingress protectionIP65 / IP66 / IP67
ApprovalsJB/T9246-2016, EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter

Installation

Key install requirements. Full datasheet on request.

  • Run skid line full; pump-discharge or pressurised-feed leg only
  • Install fine-mesh strainer (100 µm on DN4 to DN10) upstream
  • Maintain ≥ 10 D upstream and ≥ 5 D downstream straight pipe
  • Mount horizontal or vertical with upward flow
  • Inspect impeller every 6 months; every 3 months on lab solvent service

Frequently asked questions

What is a small-bore turbine flow meter and how does it work?+
A small-bore turbine flow meter measures volumetric flow of clean low-viscosity liquid through a free-spinning rotor in a compact DN4 to DN15 bore. The LWGY small-bore version covers OEM modular skid integration, analytical and laboratory measurement, pilot-plant batch-reactor feed, and fuel-cell test-bench coolant loops, with the integrated 3.6 V lithium battery V-code for off-grid installations.
What pipe sizes and flow ranges fit OEM skid and lab service?+
DN4 covers 0.04 to 0.4 m³/h on analytical flow measurement and small dosing skids. DN6 covers 0.06 to 0.6 m³/h on chromatography eluate and pilot-reactor feed. DN10 covers 0.15 to 1.5 m³/h on lab calibration and test-bench coolant. DN15 covers 0.4 to 8 m³/h on small modular skids and pharma utility loops. Pressure up to 25 MPa for high-pressure analytical and test-bench service.
What service falls outside the LWGY small-bore range?+
Above DN15 lines; go to the LWGY water turbine flow meter (DN15 to DN200). Below DN4 ultra-micro-flow service for chromatography injection or microfluidic R&D; go to specialty micro-flow vendors with bores below 1 mm. Gas service (hydrogen test bench, calibration gas) is not applicable for LWGY liquid family; go to LWGQ when published. High-viscosity liquids above 10 cSt; go to PD or Coriolis (ZLMFM when published).
How does the 3.6 V lithium battery work for OEM skid and off-grid lab installations?+
The 3.6 V lithium battery (V code) delivers 5-year typical service life at 0.3 mA standby on OEM modular skids, lab benches, and pilot-plant batch reactors. The integrated transmitter powers a local LCD display plus 4-20 mA / pulse / RS-485 output for SCADA reporting. Battery is field-swappable on routine maintenance; compact form factor mounts directly on skid or lab bench.
How does the meter integrate with OEM skid PLCs and lab data-acquisition systems?+
The 3-wire pulse output is frequency-proportional to flow with the calibrated K-factor on each meter’s certificate. OEM skid PLCs (Allen-Bradley Micro800, Siemens S7-1200, Mitsubishi FX5, Omron NX1) accept the K-factor for skid recipe execution. Lab DAQ systems (LabVIEW, Agilent VEE, Yokogawa GP10) ingest the pulse stream for analytical run logging. RS-485 Modbus and HART are also available.
What materials and bearing options fit analytical and high-purity service?+
304 stainless body is standard for clean OEM skid and lab service. 316L upgrade is recommended for analytical chemistry and pharmaceutical USP utility. Ceramic bearing (replacing tungsten-carbide standard) suits high-purity service (USP-grade water, semiconductor UPW lab loops) where particulate from the bearing surface matters. 2Cr13 impeller is standard with 430F ferritic alternative.
What is the lead time and what certifications ship standard?+
Lead time is 5–7 business days from order confirmation, factory direct, on standard configurations DN4 to DN15. Battery V-code versions ship in the same window. Each meter ships with an ISO 9001 calibration certificate listing K-factor, calibrated DN, and tested flow range. EMC 2014/30/EU and IP65 / IP66 / IP67 are selectable. JB/T9246-2016 is the underlying standard.

Related turbine Models.

Water Turbine (LWGY)

Sister LWGY build for industrial water service DN15 to DN200; cooling water, DI / RO / USP, boiler feedwater, aerospace coolant. The next-larger bore range above small-bore.

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Chemical Liquid Turbine (LWGY)

Sister LWGY build for non-conductive solvent batch dosing DN15 to DN150; same OEM skid scenario, framed for chemical batching and solvent recovery service.

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Turbine Flow Meters; Family

LWGY liquid + LWGQ gas turbine family overview, comparison vs vortex / EMF / Coriolis, and the full application-to-build map.

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Send bore, application, fluid/viscosity, pressure/temperature, power, target flow. Engineering returns model code + ship window in one business day.

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