CNG Mass Flow Meter
Custody Coriolis for CNG Refueling Station Dispenser and Mother-Daughter Trade Transfer
±0.1 % custody / ±0.2 % standard rate options
DN8 to DN15 threaded UNF
Working pressure 20 MPa standard / 25 MPa custody / 35 MPa custom
- 9/16-18 UNF and 13/16-16 UNF industry-standard threaded process connections
- Direct mass measurement at dispenser pressure; no T+P correction loop
- Ex d [ia] IIC T6 Gb + IP67 hazardous-area certification standard
CNG Coriolis for refueling station dispenser custody, mother-daughter station trade-transfer metering, and compressor outlet flow. Shares the high-pressure threaded CMASS hardware with the hydrogen counterpart; 9/16-18 UNF and 13/16-16 UNF threaded connections, working pressure to 25 MPa, ±0.1 % custody accuracy option. Direct mass flow output at dispenser pressure removes the T+P correction loop. Lead time 5–7 business days from the factory.
Benefits
- 9/16-18 UNF + 13/16-16 UNF threaded connections: standard CNG dispenser fittings, drop-in for industry-standard dispenser housings.
- Direct mass measurement: Coriolis output is mass-direct at dispenser pressure; no separate T+P correction loop.
- Working pressure up to 25 MPa: covers CNG dispenser service (20 MPa standard) and mother-daughter trade transfer (25 MPa custody).
- ±0.1 % custody option: factory K-factor for trade-transfer billing and inter-utility reconciliation.
- Ex d [ia] IIC T6 Gb dual hazardous-area: flameproof + intrinsically safe combined for dispenser cabinet zones.
- Dual-pulse output: one channel to the billing system, one to the prover station for periodic verification.
- Lead time 5–7 business days from the factory with calibration on order build.
Configure your build.
Select your specs and the configurator returns the CMASS build code plus a ballpark unit price. Submit for engineering review and verified sizing within 4 business hours.
Your Configuration
CMASS-CMASS008-P20-A1-S-C13-OM-EX
Sensor DNCMASS008 (DN8)
Working pressure20 MPa
Accuracy±0.1 %
Wetted material316L
Process connection13/16-16 UNF
Output4-20 mA + Pulse + RS-485
Hazardous areaEx d [ia] IIC T6 Gb
Estimated unit price
Verified after engineer review
$4,680
Subtotal (× 1)$4,680
Request Quote on This Build
Email Engineering
✓ Ex d [ia] IIC T6 Gb standard for dispenser cabinet zones
✓ CNG composition + dispenser P/T reviewed by application engineer
✓ Reply within 4 business hours
✓ CNG composition + dispenser P/T reviewed by application engineer
✓ Reply within 4 business hours
Typical applications
Four CNG applications where the small-bore CMASS Coriolis is the standard pick over a turbine alternative.
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CNG refueling station dispenser custody
20 to 25 MPa CNG dispenser cabinet; ±0.1 % rate for per-dispense billing accuracy; Ex d [ia] for the dispenser enclosure.
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Mother-daughter station trade transfer
Custody boundary between mother and daughter stations for inter-utility billing. Dual-pulse output for prover-station verification + audit-trail logger.
🛒
Virtual-pipeline CNG trailer fill billing
CNG transported by trailer to remote sites without pipeline access. Fill-side custody-grade meter at the trailer loading point.
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Compressor station outlet metering
CNG production accounting at the compressor outlet on gas-utility or industrial CNG production sites. Direct mass at compressor outlet pressure.
Specifications
| Measurement principle | Coriolis force on vibrating tube; direct mass flow + density + temperature on one 4-20 mA loop |
|---|---|
| Sensor DN | CMASS008 (DN8) and CMASS015 (DN15); small-bore high-pressure threaded series |
| Process connection | 13/16-16 UNF threaded (CMASS008 / 015 standard) and 9/16-18 UNF (CMASS008 small-bore option); industry-standard CNG dispenser fittings |
| Accuracy | ±0.1 % / ±0.2 % / ±0.5 % of rate (factory K-factor calibration with each meter) |
| Repeatability | 0.05 % at ±0.1 % build / 0.1 % at ±0.2 % build / 0.25 % at ±0.5 % build |
| Density measurement | 0.3 to 3.000 g/cm³, accuracy ±0.002 g/cm³ |
| Working pressure | 20 MPa standard (CNG dispenser service) / 25 MPa custody (mother-daughter trade transfer) / 35 MPa custom |
| Medium temperature | −20 to +60 °C (CNG dispenser cabinet ambient + Joule-Thomson cooling at fast-fill) |
| Ambient temperature | −40 to +60 °C transmitter standard, −20 to +60 °C high-end LCD transmitter |
| Wetted parts | 316L stainless (standard), titanium alloy (chloride / sour-gas option), Hastelloy C (oxidizing chemistry option) |
| Housing | 304 stainless (sensor) + aluminium ZL401 (transmitter enclosure) |
| Output signals | 4-20 mA + Pulse + RS-485 Modbus RTU (standard) or 4-20 mA + Pulse + HART (option) |
| Transmitter display | 3-line LCD with touch keys; English / Russian / Chinese language |
| Power supply | 18 to 36 VDC (basic) or 85 to 265 VAC self-adaptive; 7 W typical, 10 W AC version |
| Ingress protection | IP67 |
| Hazardous area | Ex d [ia] IIC T6 Gb (flameproof + intrinsically safe combined) |
| Applicable media | CNG (compressed natural gas, methane-dominant >95 % CH₄, dry single-phase) at dispenser pressure |
| Approvals | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter; CNG custody type-approval (NIST HB 44 / MID / INMETRO / GB/T) buyer-arranged with notified body |
| Lead time | 5 to 7 business days from order confirmation, factory direct |
Installation
Five install rules for the CMASS Coriolis on CNG dispenser and trade-transfer service.
- Torque the UNF threaded fittings per dispenser spec The 9/16-18 UNF and 13/16-16 UNF threaded process connections need controlled torque per the CNG dispenser OEM spec. Over-torque distorts the sensor tube and shifts the zero point; under-torque leaks at dispenser pressure. Use a calibrated torque wrench and follow the dispenser integrator’s torque table.
- No upstream straight-pipe run required The Coriolis principle is independent of velocity profile, so the CMASS sensor needs no upstream or downstream straight-pipe like a turbine or vortex meter does. Mount directly downstream of the dispenser solenoid or upstream of the nozzle hose; whichever fits the dispenser cabinet layout.
- Fix pipe support on both sides of the sensor The vibrating tube is sensitive to external pipe vibration from the CNG compressor or dispenser solenoid cycling. Add pipe brackets at fixed steel or dispenser cabinet structure close to the sensor process connections. On high-vibration runs, isolate with flexible high-pressure hose.
- Gas-clean handling from receipt CNG pipeline supply must be dry and clean to dispenser inlet spec. Pipeline-grade methane is normally dry; check for any condensate at the compressor knockout pot before commissioning. Any liquid carry-over during start-up biases the zero point; run a zero-correction cycle after first commissioning with valves closed and the sensor at process temperature.
- Earth-ground the sensor housing separate from welding-system The sensor housing needs reliable earth grounding with cross-section ≥ 1 mm². Never bond welding-system ground to the meter ground during pipe work; transient currents damage the pickup coils and the transmitter input stage.
Frequently asked questions
What is a CNG Coriolis mass flow meter and how does it work?+
A CNG Coriolis mass flow meter measures compressed natural gas directly as mass flow at dispenser pressure (20 to 25 MPa). Two parallel measuring tubes vibrate at their resonant frequency; CNG flow through the tubes generates Coriolis force that twists the tube pair, and pickup coils read the phase shift between inlet and outlet motion. The phase shift is directly proportional to mass flow, with no temperature or pressure correction loop required. The meter ships with 9/16-18 UNF and 13/16-16 UNF threaded connections that match industry-standard CNG dispenser fittings worldwide, and outputs mass flow on 4-20 mA + pulse + RS-485 Modbus or HART for station SCADA and POS integration.
How does this differ from the LWGQ Natural Gas Turbine for city-gas distribution?+
The LWGQ Natural Gas Turbine is the city-gas distribution custody pick at 1.6 to 10 MPa header pressure on DN50 to DN300 mains; the right meter for utility distribution billing. The CNG Coriolis covers the higher-pressure 20 to 25 MPa dispenser service that the turbine pressure class does not reach, and at the small-bore (DN8 / DN15) dispenser flow rate where turbine rangeability becomes limited. The Coriolis also outputs mass directly at dispenser pressure with no T+P correction loop, while the turbine relies on built-in T+P compensation to convert volumetric pulse to corrected mass. For pipeline distribution: use the LWGQ. For refueling dispenser, mother-daughter trade transfer, and compressor outlet: use this Coriolis.
What is mother-daughter station trade transfer and why does it need custody-grade accuracy?+
A mother-daughter station setup transports CNG by trailer (or short pipeline) from a mother station with pipeline gas access to a daughter station in a remote location without a pipeline. The transfer point between mother and daughter is the custody boundary for inter-utility billing; the daughter station pays the mother station for the CNG delivered, so the transfer meter must be custody-grade for fiscal reconciliation. The CNG Coriolis with the ±0.1 % rate accuracy build + dual-pulse output (one pulse channel to the billing system + one to a prover station for periodic verification) covers this service. Each meter ships with an ISO 9001 calibration certificate listing the K-factor and zero-stability data for the audit trail.
What is the custody-pathway story for CNG dispenser billing?+
CNG dispenser custody approval is buyer-arranged with a notified body under the local CNG metrology regime; the meter does not ship with a fiscal billing type-approval certificate ex-factory. In practice this means: in the US, NIST HB 44 dispenser approval is handled by the dispenser OEM / station operator with state weights-and-measures; in the EU, MID Annex MI-002 covers gas meters under category B and is handled by the dispenser package integrator with the notified body; in Brazil, INMETRO carries CNG retail approval; in China, GB/T 22634 covers CNG vehicle refueling. ProFlow provides the ±0.1 % rate hardware build, the ISO 9001 calibration certificate, and the zero-stability data sheet that the local approval pathway needs as input.
How does the CNG build differ from the hydrogen counterpart page given they share the CMASS hardware?+
The CMASS sensor hardware (DN8 / DN15 bodies with 9/16-18 UNF and 13/16-16 UNF threaded connections) is shared between CNG and hydrogen builds because both applications fit the same form factor; small-bore, high-pressure, threaded process connection, dispenser cabinet integration. The two builds diverge on three points: working pressure (CNG dispenser at 20 to 25 MPa vs hydrogen H35 at 35 MPa and H70 at 70 MPa, so the hydrogen build runs the higher pressure class); accuracy default (CNG ships ±0.1 % / ±0.2 % / ±0.5 % across the dispenser service; hydrogen adds the ±0.15 % mid-grade for HRS custody); and custody-pathway documentation (CNG goes under local CNG metrology regime, hydrogen goes under the international H2 refueling-station dispenser approval pathway).
What is the lead time and what certifications ship standard?+
Standard lead time is 5 to 7 business days from order confirmation, factory direct, with calibration on the order build before shipment. Each meter ships with an ISO 9001 calibration certificate listing the K-factor, calibrated DN, zero-stability data, and tested flow range. Hazardous-area certification is Ex d [ia] IIC T6 Gb (flameproof + intrinsically safe combined) standard for CNG dispenser cabinet and compressor-station classified zones, with IP67 ingress rating standard for outdoor dispenser-housing service. EMC compliance to the EU Electromagnetic Compatibility Directive 2014/30/EU (Annex II) ships standard. CNG custody type-approval (NIST HB 44 / MID / INMETRO / GB/T) is buyer-arranged with the notified body in the destination market.
Need help sizing a CNG dispenser build?
Send dispenser P/T, sensor DN, accuracy grade, custody pathway, and output protocol. Engineering replies in 1 day; lead time 5–7 business days.