Cryogenic Coriolis Flow Meter
Mass Flow for LNG, Liquid Hydrogen (LH₂), LOX (Liquid Oxygen), LN₂ (Liquid Nitrogen), and LAr (Liquid Argon) Service from −269 to +100 °C
±0.2 % / ±0.5 % of rate options at cryogenic temperature
DN10 to DN150 standard (DN200 by quote)
Medium −269 to +100 °C
- Direct mass plus density measurement on the cryogenic line; no T+P correction loop needed for billing.
- Vacuum-jacket sensor option for thermal stability on LH₂ and LOX service.
- 316L wetted parts standard, titanium and Hastelloy C optional for chloride-bearing service.
Cryogenic Coriolis is the universal pick below −50 °C where vortex, turbine, EMF, and thermal-mass all fail. The −269 °C floor encloses LH₂ (−253 °C) and LNG (−162 °C) with margin, covering LN₂, LOX, LAr, LNG, LH₂, ethylene, helium. Vacuum-jacket option suppresses heat ingress on LH₂ / LOX. DN10 to DN150 std, ±0.2 % / ±0.5 % rate, 5–7 business days.
Benefits
- −269 °C floor across the cryogenic build; encloses LH₂ (−253 °C), LNG (−162 °C), LOX (−183 °C), LN₂ (−196 °C), LAr (−186 °C), and liquid ethylene (−104 °C) on one meter.
- Direct mass measurement; no T+P correction needed for billing. The vibrating tube reads mass flow from Coriolis twist; density and temperature ship on the same signal.
- Vacuum-jacket sensor option for LH₂ and LOX service, with the jacket evacuation certificate from the factory.
- Ex d [ia] IIC T6 Gb + IP67; flameproof body with intrinsically safe sensor connection, dust-and-water-tight transmitter housing.
- Built-in density 0.3 to 3.000 g/cm³ at ±0.002 g/cm³; LIN density tracking for industrial-gas trade-transfer settlement.
- 316L standard, titanium and Hastelloy C optional for chloride-bearing or oxidizing cryo service.
- Lead time 5–7 business days from the factory.
Configure your cryogenic build
Build a model code from DN, build, accuracy, material, flange, output, and hazardous-area class.
Your configuration
CMFM-CRYO-DN50-CRY-A02-316L-A300-HRT-EX
DN50 (2 in), cryogenic extreme (−269 to +100 °C, vacuum jacket), ±0.2 % of rate, 316L wetted parts, ANSI 300 LB, 4-20 mA + Pulse + RS-485 + HART, Ex d [ia] IIC T6 Gb.
Estimated unit price
$ 9,800
Request engineering quote
Request datasheet
Typical applications
Four cryogenic applications where the Coriolis is the fiscal-standard pick.
🏭
LNG terminal regasification billing
Mass meter on the cryogenic side of the regas skid; fiscal basis under the LNG sale-purchase agreement.
⚡
ASU LOX / LN₂ / LAr custody
Air-separation-unit custody loop to bottling and tank-truck loading. Direct mass plus density on each delivery.
⚫
Liquid-hydrogen electrolyzer outlet
LH₂ line from the liquefier to the storage Dewar at −253 °C. Vacuum-jacket sensor for thermal stability.
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Industrial-gas cryogenic delivery
Tank-truck and cylinder-fill custody on LN₂, LAr, and helium recovery. Mass-and-density trade-transfer settlement.
Specifications
| Measurement principle | Coriolis force on vibrating tube; direct mass flow, with built-in density and temperature measurement |
|---|---|
| Pipe size range | DN10 to DN150 standard cryogenic build (3/8″ to 6″); DN200 by quote |
| Accuracy class | ±0.2 % of rate liquid standard / ±0.5 % of rate cryogenic standard; ±0.1 % / ±0.15 % custom builds available |
| Repeatability | 1/2 of accuracy range (per IEC 60534-2-3 convention) |
| Medium temperature | −269 to +100 °C (cryogenic extreme build); −200 to +200 °C (low-temp build); −50 to +200 °C (standard build) |
| Ambient temperature | −40 to +60 °C standard transmitter; −20 to +60 °C LCD transmitter |
| Working pressure | 0 to 4.0 MPa standard build; DIN PN6 / PN16 / PN25 / PN40 / PN63, ANSI 150 LB / 300 LB / 600 LB |
| Wetted parts | 316L stainless (standard), titanium alloy, Hastelloy C-276 (material options) |
| Housing | 304 stainless (sensor), aluminium ZL401 (transmitter) |
| Vacuum-jacket option | Stainless outer shell with evacuated inter-shell space; helium-leak tested; jacket evacuation certificate ships with the meter |
| Medium | Cryogenic single-phase liquid: LN₂, LOX, LAr, LNG, LH₂, ethylene, helium, methane liquid phase (per §C14 binding) |
| Out-of-binding | Two-phase or flashing cryo with rapid gas-slug cycling; phase-separation pre-conditioning required upstream; empty-line operation |
| Density measurement | 0.3 to 3.000 g/cm³, accuracy ±0.002 g/cm³ (LIN density tracking) |
| Temperature measurement | ±1 °C from the embedded RTD across the rated temperature range |
| Turndown | 10:1 to 20:1 within the basic accuracy range |
| Transmitter grade | I basic / II 2-row LED / III 3-row LCD / IV touch-key LCD; outputs 4-20 mA + Pulse + RS-485 Modbus RTU + HART (grade-dependent) |
| Output signals | 4-20 mA (max load 600 Ω), Pulse, RS-485 Modbus RTU, HART |
| Power supply | 18 to 36 V DC or 85 to 265 V AC self-adaptive; 7 W typical, 10 W AC version |
| Ingress protection | IP67 |
| Hazardous area | Ex d [ia] IIC T6 Gb (flameproof body with intrinsically safe sensor connection) |
| Approvals | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter, cold-zero verification record on cryogenic builds |
| Lead time | 5 to 7 business days from factory |
Installation
Five install rules for cryogenic Coriolis service.
- Pre-cool the sensor before service Bring the sensor down to medium temperature with the line by controlled cool-down, never by direct introduction of cryogen onto a warm meter. Thermal shock on commissioning is the dominant cause of zero-point drift on cryogenic meters.
- Pipe support both sides of the sensor The vibrating tube is sensitive to external pipe vibration and thermal-contraction load. Add brackets at fixed concrete or steel close to both sensor flanges; on long unsupported cryogenic runs, use a flexible loop on the downstream side to absorb contraction.
- Vacuum-jacket integrity check + vent / relief sizing + oxygen-clean handling Verify jacket vacuum reading against the factory evacuation certificate within 5 % tolerance before introducing cryogen. Loss-of-vacuum risk: a failed jacket cools the outer shell and risks frost / embrittlement on adjacent piping; size a vent stack on the sensor cavity per the local cryogenic safety code (e.g. CGA H-3 / EN 13458) and go to a safe area. For LOX (liquid oxygen) service: oxygen-clean preparation of wetted parts is required; specify oil-free build at quote and follow the factory oxygen-cleaning protocol on field rework. No hydrocarbon contamination on any wetted surface.
- No upstream straight-pipe required The Coriolis principle is independent of velocity profile. No upstream or downstream straight-pipe run is needed; the meter installs at any point in the cryogenic line including immediately downstream of an elbow or valve.
- Zero-point at process temperature Run the zero-correction cycle after the sensor reaches process temperature with the line full of medium and flow stopped (valves closed both sides). Repeat at 6-month interval. The cold zero value is recorded in the calibration certificate.
Frequently asked questions
What is a cryogenic Coriolis flow meter and where does it sit in the cold chain?+
A cryogenic Coriolis flow meter is a vibrating-tube mass flow instrument built for service from −269 to +100 °C. The two-tube sensor is brought to cryogenic temperature with the line and reads mass flow directly from the Coriolis twist amplitude, density from the resonant frequency shift, and temperature from an embedded RTD. The meter sits on the cryogenic line itself; LNG terminal regasification feed, ASU LOX / LN₂ / LAr custody loop, liquid-hydrogen electrolyzer outlet to the storage Dewar, industrial-gas tank-truck loading manifold. The cryogenic-extreme build pairs a 316L or titanium wetted-part assembly with an optional vacuum-jacket sensor housing for thermal stability at the lowest temperatures.
Why Coriolis below −50 °C when vortex, EMF, turbine, and ultrasonic all fail?+
At cryogenic temperatures every other flow-meter family runs out of platform binding. Vortex shedding stability breaks down because the medium kinematic viscosity collapses and shedding Strouhal scaling falls off. Electromagnetic meters need ≥5 µS/cm conductivity; cryogenic LN₂ and LH₂ are non-conductive. Turbine bearings cold-weld and the K-factor drifts under thermal contraction. Thermal-mass dispersion needs a stable gas calorific reference; cryogenic flashing destroys it. Ultrasonic transit-time loses coupling on the cold pipe wall. Coriolis is principle-independent of medium velocity, conductivity, and density; the vibrating tube tracks mass flow directly and the same resonance reads density. That is why Coriolis is the universal pick below −50 °C and the only family at proflowmeters.com/ rated for the cryogenic floor.
When do I need the vacuum-jacket sensor option versus the standard cryogenic build?+
The standard cryogenic-extreme build (−269 to +100 °C, no jacket) handles most cryogenic delivery service; LN₂ tank-truck loading, LAr cylinder fill, ASU custody on insulated piping. The vacuum-jacket sensor option adds a stainless outer shell with the inter-shell space evacuated, suppressing heat ingress and stabilizing the sensor zero point on the lowest-temperature media. Pick the vacuum-jacket build for liquid-hydrogen service (−253 °C, where 1 °C zero drift = visible accuracy degradation), LOX custody where ambient frost forms on a bare body, and any installation where the surrounding piping uses vacuum-jacketed transfer lines for the same reason. The vacuum-jacket build is configurator-selectable; quote includes the jacket evacuation certificate from the factory.
How does the cryogenic Coriolis compare to a cryogenic turbine flow meter for LNG service?+
For LNG (−162 °C) the routing splits by service. A cryogenic-rated turbine works on small-bore cryo transfer where the LNG is sub-cooled and single-phase, the buyer accepts ~±0.5 % rate, and bearing thermal-contraction recalibration is acceptable. A cryogenic Coriolis covers the same service plus everything the turbine cannot: two-phase tolerance at flashing onset, direct mass output (no density correction loop needed for billing), wider turndown, and a density measurement that doubles as a process indicator for LNG composition drift. For LNG terminal fiscal billing at the regasification skid, the Coriolis is the standard pick; the mass output is the audit basis under the LNG sale-purchase agreement; volume-from-turbine plus separate densitometer + temperature is the legacy alternative.
Can the meter actually run on liquid hydrogen at −253 °C?+
Yes; the cryogenic-extreme build with vacuum-jacket sensor option covers −269 to +100 °C, which encloses the LH₂ service temperature of −253 °C with margin. Wetted-part material is 316L standard (austenitic, hydrogen-compatible) or titanium upgrade where chloride or hydrogen-embrittlement-conservative practice is preferred. The transmitter is mounted remotely on a stand-off with up to 50 m cable run; this keeps the electronics in the −40 to +60 °C operating window while the sensor stays on the LH₂ line. Pre-cool the sensor with the line before service per the install rules; thermal shock on commissioning is the dominant cause of zero-point drift on LH₂ meters. Calibration traceability ships with each meter for the buyer’s type-approval submission to a notified body on fiscal-billing applications.
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 K-factor (mass calibration coefficient), the density coefficient pair (D1 and D2), the calibrated DN, and the tested flow range. Cryogenic-build meters add the cold-zero verification record taken at calibration; vacuum-jacket builds add the jacket evacuation certificate with the measured ultimate vacuum reading and helium-leak test result. Hazardous-area certification is Ex d [ia] IIC T6 Gb (flameproof body with intrinsically safe sensor connection). EMC compliance is to EU Directive 2014/30/EU. Type approval for fiscal LNG / LH₂ / LOX custody under OIML or comparable metrology regime is buyer-arranged with a notified body; the factory provides build documentation and traceable calibration records to support that submission.
Sizing a cryogenic Coriolis build?
Send DN, medium, service temperature, vacuum-jacket need, and custody requirement. Reply in 1 day; lead time 5–7 business days.