Natural Gas Roots Flow Meter
Positive-Displacement Custody Billing on Low-Flow Gas Distribution
Accuracy ±0.5 % / ±1.0 % of rate options
DN25 to DN150 across G16 to G1000 flow ranges (G-class = EN 1359 / EN 12480 designated Qmax)
1:30 turndown; low-flow accurate where turbines fade
- Twin-lobe Roots PD principle; fixed displacement per rotation, holds accuracy at the low-flow tail
- 3.6 V lithium battery + 4G wireless option for unmanned AMR on residential and remote fence meters
- Ex ia IIC T6 Ga (intrinsically safe) + IP65 + ISO 9001 cal cert with every meter
Clean dry natural-gas distribution custody. Twin-lobe Roots rotor pair in an aluminium-alloy casing displaces a fixed volume per rotation; accuracy holds across a 1:30 turndown down to the residential billing tail. Ex ia IIC T6 Ga and IP65 ship standard; the 3.6 V lithium battery plus 4G option supports unmanned AMR. Raw biogas, wet gas, and cryogenic LNG are out of scope; go to LUXB swirl or Cryogenic Coriolis instead.
Benefits
- Low-flow accurate to 1:30 turndown: positive-displacement principle holds ±0.5 % at the residential billing tail where turbines fade.
- Battery + 4G AMR ready: 3.6 V lithium pack supports multi-year unmanned billing on remote residential and fence meters.
- Ex ia IIC T6 Ga standard: intrinsically safe certification covers Zone 1 regulator stations without flameproof rework.
- G16 to G1000 production range: ten G-classes from DN25 small-commercial up to DN150 cluster sub-distribution.
- Seven output options: 3-wire pulse, battery-pulse, 3-wire 4-20 mA, 2-wire 4-20 mA, RS-485 Modbus, HART, and 4G wireless; matches utility Automated Meter Reading (AMR) and SCADA integrations.
- T+P compensation built-in: corrected Nm³/h on the output channel for billing reconciliation at reference conditions.
- Lead time 5–7 business days from the factory with ISO 9001 calibration certificate.
Configure your build.
Select your specs and the configurator returns the LQ model code plus a ballpark unit price. Submit for engineering review and verified sizing within 4 business hours.
Your Configuration
LQ-50-V-A-Ex-7-P-1
Pipe sizeDN50
Power3.6 V battery
Accuracy±0.5 % of rate
EnvironmentEx ia IIC T6 Ga
Output4G wireless
Estimated unit price
Verified after engineer review
$1,680
Subtotal (× 1)$1,680
Request Quote on This Build
Email Engineering
✓ Ex ia IIC T6 Ga standard for Zone 1 regulator stations
✓ G-class sizing reviewed by application engineer
✓ Reply within 4 business hours
✓ G-class sizing reviewed by application engineer
✓ Reply within 4 business hours
Typical applications
Four city-gas and town-gas custody applications where Roots PD is the standard pick over turbine.
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City-gas residential billing
DN25 / DN40 small-commercial meters on residential mains. G16 / G25 covers 1 to 40 m³/h at 0.6 MPa with battery AMR.
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Town-gas regulator station
Secondary regulator station feeding clusters. G100 to G250 at 1.0 to 1.6 MPa; HART or RS-485 to the SCADA cabinet.
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Industrial-park tenant fence-billing
Per-tenant fence meter on park sub-distribution. G65 / G100 captures intermittent boiler and process draw with ±0.5 % custody.
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Off-peak utility AMR endpoint
Remote distribution-tail meter on unmanned billing. 3.6 V battery + 4G uplink runs multi-year; low-flow tail captured.
Specifications
| Measurement principle | Positive-displacement Roots rotor; twin-lobe rotor pair sealed in casing, fixed volume per rotation |
|---|---|
| Direct outputs | Volumetric flow (m³/h actual), totalizer, T+P-corrected Nm³/h when compensation fitted |
| Pipe size range (production) | DN25, DN32, DN40, DN50, DN65, DN80, DN100, DN150 (eight standard sizes; DN125 by quote) |
| Pipe size range (by quote) | DN15, DN20 (selection code supported, flow range not published) |
| G-class flow ranges | G16 (1–25 m³/h DN25) · G25 (1–40 m³/h DN40) · G40 (2–65 m³/h DN50) · G65 (2–100 m³/h DN50) · G100 (2.5–160 m³/h DN80) · G160 (3–250 m³/h DN80) · G250 (3–400 m³/h DN100) · G400 (4–650 m³/h DN100) · G650 (8–650 m³/h DN150) · G1000 (15–1000 m³/h DN150) |
| Accuracy | ±0.5 % of rate / ±1.0 % of rate / ±1.5 % of rate (factory K-factor calibration with each meter) |
| Repeatability | ±0.1 % |
| Turndown | 1:20 to 1:30 (G-class dependent) |
| Working pressure | Up to 1.6 MPa standard; G-class dependent (0.6 / 1.0 / 1.6 MPa per G-class row) |
| Pressure loss at Qmax | 110 to 600 kPa (G-class dependent) |
| Medium temperature | −25 to +65 °C standard; −10 to +60 °C option; −10 to +120 °C special build |
| Wetted parts | Aluminium alloy |
| Housing | Aluminium alloy with integrated transmitter and LCD |
| Output signals | (1) Pulse 3-wire / (2) Pulse + battery-card / (3) 4-20 mA 3-wire / (4) 4-20 mA 2-wire / (5) RS-485 Modbus RTU / (6) HART / (7) 4G wireless |
| Compensation | None / temperature / pressure (selectable at order) |
| Power supply | 24 VDC or 3.6 V lithium battery (multi-year service life on AMR duty) |
| Display | LCD; instantaneous flow, totalizer, temperature, pressure (when compensation fitted) |
| Ingress protection | IP65 |
| Hazardous area | Ex ia IIC T6 Ga (intrinsically safe) |
| Form factor | Integrated (1) or remote split (2) |
| Applicable media | Clean dry natural gas, town gas, city gas (post-amine, ≤4 ppm H₂S, single-phase) |
| Approvals | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter |
| Lead time | 5 to 7 business days from factory |
Installation
Five install rules for the LQ Roots meter on natural-gas distribution service.
- Filter upstream of every meter Roots is particulate-sensitive. Fit a sized gas filter; leave one DN between filter outlet and meter inlet flange.
- Regulator upstream stabilizes inlet Locate the meter downstream of the pressure regulator so inlet pressure stays inside the G-class range.
- Never install at a pipe low point Roots cannot tolerate liquid carryover. Route a condensate trap upstream if condensate is possible.
- Avoid pulsation source on the inlet Roots reads volume per rotation; line pulsation distorts the count. Add an accumulator if pulsation is unavoidable.
- Flow arrow aligned to line direction The arrow on the casing must match line flow direction; horizontal and vertical mounts are both supported.
Frequently asked questions
What is a natural gas Roots flow meter and how does it work?+
A natural gas Roots flow meter is a positive-displacement (PD) volumetric meter. Two twin-lobe rotors turn in mesh inside a sealed casing; each revolution displaces a fixed quantity of gas from inlet to outlet. The rotation count gives totalized volume and the rotation rate gives instantaneous flow. A magnetic pickup on the rotor shaft sends pulses to the integrated flow computer, which displays m³/h actual on the LCD and outputs corrected Nm³/h on the 4-20 mA, RS-485, HART, or 4G channel when temperature and pressure compensation is fitted. Accuracy is ±0.5 % of rate on custody builds, holding across a 1:30 turndown that catches the low-flow billing tail where turbines lose accuracy.
How does Roots compare to the LWGQ natural-gas turbine?+
Roots wins the low-flow custody range; LWGQ turbine wins above DN150 and at sustained high flow. Roots is positive-displacement, so accuracy is independent of velocity profile and stays inside ±0.5 % of rate down to the low end of the published range. Turbine is velocity-type and fades at the bottom of its 1:30 turndown. Use Roots on DN25 to DN150 city-gas distribution custody, fence-billing on industrial-park tenants, and town-gas regulator-station accounting where residential and light-commercial demand creates a low-flow tail. Use LWGQ turbine on DN50 to DN300 mains delivery where header flow is steady and high, with HART for DCS integration.
What G-class flow ranges and pipe sizes are supported?+
The production range covers ten G-classes from G16 (1 to 25 m³/h on DN25) up to G1000 (15 to 1,000 m³/h on DN150). G16 / G25 on DN25 / DN40 fit residential and small-commercial billing at 0.6 MPa. G40 to G250 cover fence-billing on industrial-park tenants and town-gas regulator stations at 1.0 to 1.6 MPa. G400 / G650 / G1000 handle larger sub-distribution clusters on DN100 to DN150 at 0.6 to 1.6 MPa. DN15 and DN20 are supported through the selection code but ship by-quote, no published flow range. Pressure loss at maximum flow ranges 110 to 600 kPa depending on G-class.
Battery or 24 VDC power; which fits the service?+
Pick the 3.6 V lithium battery when the install is unmanned residential, light-commercial, or remote-fence with no DC trunk; battery service life is multi-year on standard AMR service (telemetry over 4G or short pulse bursts). Pick 24 VDC when the meter sits on a regulator station or industrial-park skid with a DC trunk already in place, or when the output is a continuous 4-20 mA loop to SCADA / DCS. Hazardous-area certification is Ex ia IIC T6 Ga (intrinsically safe) on both power options, so utility AMR cabinets and Zone 1 regulator stations are both supported without a flameproof housing rework.
What custody-transfer certifications are supported?+
Each meter ships with a factory ISO 9001 calibration certificate listing the G-class, calibrated DN, K-factor, and tested flow range. Custody-transfer type approval per the buyer's local gas-meter metrology regime is buyer-arranged with a notified body in the destination market; the factory does not pre-stamp regulatory type-approval marks. The factory provides build documentation and traceable calibration records to support the buyer's type-test submission, and the buyer can arrange witness calibration at a third-party metrology institute (NMi / PTB / NIM equivalent) before shipment. EMC compliance to EU Directive 2014/30/EU ships standard with each meter.
What is the lead time and how is the meter calibrated?+
Standard lead time is 5 to 7 business days from order confirmation, factory direct. Each meter is calibrated at the factory on a gravimetric or bell-prover gas rig matched to the ordered G-class, tested across the published flow range, and shipped with a calibration certificate listing K-factor, calibrated DN, tested range, and accuracy class. The 3.6 V lithium battery is fitted before calibration and shipped pre-loaded for multi-year AMR service. For local custody-transfer regimes, the buyer may nominate a third-party witness inspector to attend the calibration run before crating; coordinate that on the order to reserve a slot in the rig schedule.
Need help sizing a city-gas Roots build?
Send line size, working pressure, gas composition, AMR protocol, and custody-transfer regime. Engineering replies in 1 day; lead time 5–7 business days.