Biogas Roots Flow Meter
Positive-Displacement Custody Billing for Post-Upgrade Biomethane / RNG
Accuracy ±0.5 / 1.0 % of rate options
Pipe DN25 to DN150 small-skid bores
Post-upgrade biomethane / RNG only (not raw biogas)
- Twin-lobe Roots PD principle; sealed-pocket volume per rotation for clean dry biomethane
- Wide turndown captures off-peak biomethane production swings narrow-range meters miss
- Ex ia IIC T6 Ga intrinsically safe + IP65 + 3.6 V lithium battery for off-grid AMR
Roots positive-displacement build for post-upgrade biomethane (Renewable Natural Gas / RNG) fiscal service; small-skid grid-injection, landfill-gas off-taker invoicing, and WWTP biomethane-to-CHP accounting after H₂S scrubbing, CO₂ separation, and drying. In-binding biomethane: ≥95 % CH₄, H₂S ≤10 ppm at meter inlet, dry single-phase. ±0.5 % of rate holds at the low end where turbine fades. Raw biogas at the digester outlet goes to the biogas swirl flow meter (LUXB series).
Benefits
- Custody-grade ±0.5 % of rate: factory K-factor (pulses-per-volume calibration) for small-skid RNG billing and off-taker invoice settlement.
- 1:30 turndown on top G-class: captures off-peak biomethane production swings without re-sizing the meter.
- Roots PD principle: sealed-pocket volume per rotation holds accuracy at the low-flow tail where turbine reads zero.
- Compact DN25 to DN150 bores: fits small-skid RNG outlets and WWTP biomethane-to-CHP service where DN200+ turbine is over-spec.
- Ex ia IIC T6 Ga intrinsically safe: classified RNG-skid delivery points with IP65 ingress.
- 3.6 V lithium battery AMR: multi-year service life on off-grid unmanned RNG endpoints; 4G wireless output option for utility telemetry.
- Lead time 5–7 business days from the factory.
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-80-V-A-Ex-5-T-1
Pipe sizeDN80
Power3.6 V lithium battery
Accuracy±0.5 % of rate
Hazardous areaEx ia IIC T6 Ga
OutputRS-485 Modbus RTU
Estimated unit price
Verified after engineer review
$2,400
Subtotal (× 1)$2,400
Request Quote on This Build
Email Engineering
✓ Ex ia IIC T6 Ga intrinsically safe
✓ Biomethane composition reviewed by application engineer
✓ Reply within 4 business hours
✓ Biomethane composition reviewed by application engineer
✓ Reply within 4 business hours
Typical applications
Four post-upgrade biomethane applications where the Roots build is the small-skid fiscal pick.
🏭
Small-scale RNG grid-injection
Compact RNG plant under 500 Nm³/h capacity. Roots at the biomethane-to-grid skid gives fiscal-revenue basis on DN50 to DN100 bores.
🌿
Landfill-gas off-taker custody
Smaller landfill upgrading to pipeline-quality biomethane. Roots custody meter at the upgrader outlet for renewable-fuel credit and off-taker invoice.
⚡
WWTP biomethane to CHP accounting
WWTP that upgrades digester biogas and feeds on-site CHP. Internal Roots meter for energy accounting and CHP-bonus reporting at DN25 to DN50 compact scale.
📊
Off-peak production wide-turndown billing
1:30 turndown holds ±0.5 % of rate across off-peak / shoulder / peak biomethane production swings. One meter covers the full daily cycle without re-sizing.
Specifications
| Measurement principle | Positive-displacement Roots rotor; twin-lobe sealed-pocket volume per rotation |
|---|---|
| Pipe size range | DN25, DN32, DN40, DN50, DN65, DN80, DN100, DN125, DN150 (DN15 / DN20 by quote) |
| Flow range (G-class) | G16 (1 to 25 m³/h on DN25) to G1000 (15 to 1,000 m³/h on DN150); 10 G-classes total |
| 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 (depending on G-class) |
| Working pressure | Up to 1.6 MPa (G-class-dependent: G16 / G25 at 0.6 MPa, G40 to G400 at 1.0 to 1.6 MPa, G650 / G1000 at 0.6 MPa) |
| Medium temperature | −25 to +65 °C standard; −10 to +120 °C special build |
| Ambient range | −20 to +65 °C, 5 % to 90 % RH non-condensing |
| Wetted parts | Aluminium alloy body + twin-lobe rotor (production material for G16 to G1000) |
| Medium | Post-upgrade biomethane / RNG: ≥95 % CH₄, ≤10 ppm H₂S delivered, dry single-phase |
| Service exclusions | Raw biogas, wet gas, condensate-bearing flow, 2-phase service; go to biogas-swirl (LUXB) |
| Compensation | None / temperature / pressure (selectable per Comp field in configurator) |
| Output signals | Pulse 3-wire, pulse + battery-card, 4-20 mA 3-wire / 2-wire, RS-485 Modbus RTU, HART, 4G wireless |
| Power supply | 24 V DC or 3.6 V lithium battery (battery suited for off-grid AMR endpoints) |
| Display | Instantaneous flow, cumulative volume, temperature, pressure on integrated LCD |
| Form factor | Integrated (1) / remote split (2) |
| Ingress protection | IP65 |
| Hazardous area | Ex ia IIC T6 Ga (intrinsically safe) |
| Pressure loss | 110 to 600 kPa at Qmax (G-class-dependent per the flow-range table) |
| Approvals | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter |
| Lead time | 5–7 business days from factory |
Installation
Five install rules. Pre-condition: biomethane must be dry single-phase post-upgrade; raw biogas is outside the operating range.
- Pre-condition biomethane upstream of the Roots meter Confirm the upstream upgrading skid is in normal service: H₂S scrubbing (amine / activated carbon) and drying (glycol or refrigeration) running, delivered H₂S ≤ 10 ppm, dew-point margin > 15 K, no condensate carry-over. Raw biogas at the digester outlet voids the K-factor; go to biogas-swirl (LUXB).
- Filter upstream of every meter on biomethane service Install a gas filter upstream of the meter to catch carry-over from upstream upgrading. Never connect the filter directly to the meter inlet flange; leave one DN of straight pipe between filter and meter. Debris damages the rotor and shifts the K-factor.
- Pressure regulator upstream For small-skid RNG delivery to grid or off-taker, install a pressure regulator upstream of the meter to stabilize inlet pressure. The Roots PD principle reads volume per rotation, so steady inlet pressure protects the K-factor against pulsation upset.
- No low-point install; route condensate trap upstream Roots cannot tolerate liquid carry-over or condensate slugs. Never install at a line low point. If post-dryer condensate is possible during upstream upset, route a condensate trap upstream of the meter; the trap drain is part of the install package.
- Flow-arrow alignment with line direction The flow direction arrow on the casing must align with line flow. Both horizontal and vertical (top-down) mounts are supported per the install schematics. The pipe must run full of biomethane at the meter location.
Frequently asked questions
What is a biogas Roots flow meter and where does it sit in the upgrade chain?+
A biogas Roots flow meter is a positive-displacement (PD) volumetric instrument that measures gas through a pair of twin-lobe rotors sealed in the casing; each rotation displaces a fixed sealed-pocket volume, so the rotation count is the totalized volume. It sits at the biomethane outlet of the upgrading skid (post-amine or post-membrane H₂S scrubbing, post-PSA or post-membrane CO₂ separation, post-drying) where the gas is ≥95 % CH₄, ≤10 ppm H₂S delivered, ≤4 ppm H₂O, dry single-phase. The factory K-factor gives ±0.5 % of rate custody-grade billing and the PD principle holds accuracy at the low-flow tail where turbine cannot. Post-upgrade only; raw biogas at the digester outlet is outside the operating range.
Can I use this meter on raw biogas from the digester or pre-upgrade buffer?+
No. Raw biogas at the digester outlet is water-saturated, carries 30 to 45 % CO₂ and 100 to 10,000 ppm H₂S, and is often pulsating; outside the Roots Series applicability (clean dry gas only). The Roots rotor will pit under wet H₂S service and the K-factor shifts under condensate carry-over. For raw biogas at the digester or pre-upgrading buffer, go to the biogas-swirl-flow-meter (LUXB Series) which uses Hastelloy C-276 wetted parts and tolerates H₂S to 10,000 ppm with water saturation. The biogas-roots page covers only the post-upgrade biomethane stream after the upgrading skid; that is where custody-grade billing happens.
When does Roots beat turbine on the same RNG site?+
Same site; different flow range. Biogas-roots (LQ Series) covers DN25 to DN150 small-skid RNG outlets where flow runs G16 to G1000 (1 to 1,000 m³/h) and the off-peak swing matters; PD wins the low end down to the published Qmin where turbine reads zero or biases low. Biogas-turbine (LWGQ Series) covers DN50 to DN200 grid-injection skids at higher steady flow with titanium body for residual H₂S excursions. A typical mid-size RNG plant might run a Roots meter at the off-taker delivery point and a turbine at the high-flow grid-injection skid. Pick by flow range, not by precision grade; both are ±0.5 % of rate at their service window.
What G-class range fits a small-skid RNG plant?+
Production G-classes are G16, G25, G40, G65, G100, G160, G250, G400, G650, and G1000 on DN25 through DN150. A small RNG plant in the 50 to 300 Nm³/h biomethane production range typically sizes a G65 (2 to 100 m³/h on DN50, 1.0 MPa) or G100 (2.5 to 160 m³/h on DN80, 1.6 MPa) at the upgrader outlet. A landfill-gas off-taker on a smaller upgrader uses G160 to G400 (3 to 650 m³/h) on DN80 to DN100. The 1:30 turndown on the top G-class lets one meter cover off-peak / shoulder / peak production swings without re-sizing. G16 to G25 covers very small WWTP biomethane-to-CHP service at DN25 to DN40.
Does the meter ship certified to OIML or EN 16723 for biomethane fiscal use?+
The factory ships each meter with an ISO 9001 calibration certificate listing the G-class, K-factor, calibrated DN, and tested flow range across the published range. Hazardous-area cert is Ex ia IIC T6 Ga (intrinsically safe); EMC compliance is to EU Directive 2014/30/EU. Custody-transfer type approval per the local gas-meter metrology regime; OIML R 137 / R 138, EN 16723 biomethane quality, or country-specific equivalent; is buyer-arranged with a notified body in the deployment country. The meter is a candidate instrument that the buyer's metrology consultant submits to a witnessed type-test if the local tariff regime requires it. Engineering will share build documentation and calibration traceability records to support that submission.
What is the lead time and what ships with each meter?+
Standard lead time is 5 to 7 business days from order confirmation, factory direct. Each meter ships with an ISO 9001 calibration certificate listing the G-class, K-factor, calibrated DN, and tested flow range; a mill cert for the aluminium alloy body; the build-coded serial plate with model string; and a daily-and-interval logger file pre-formatted for audit retrieval. Hazardous-area cert is Ex ia IIC T6 Ga (intrinsically safe) for classified RNG-skid delivery points. EMC compliance to EU Directive 2014/30/EU ships standard with IP65 ingress. The 3.6 V lithium battery option ships pre-fitted with a multi-year service life for off-grid AMR billing endpoints.
Need help sizing a small-skid RNG custody build?
Send line size, biomethane P/T, composition, flow range, cert need. Reply in 1 day; lead time 5–7 business days.