Gear Meters

Gear meters specifically spur gear, are ideal for low flow rates, viscous fluids, and measurement of flows involving starts and stops or pulsing.

Variable Area Meters

Variable Area flow meters are a type of rotameter that measure oils, liquids or gases by relating linear displacement of an internal “float” or sharp-edged orifice plate to a corresponding flow rate.

Coriolis Mass Flow Meters

TRICOR Coriolis flow meters are highly accurate and repeatable multi-variable instruments that measure mass flow, density, and temperature with calculated volumetric flow and feature a very easy user interface.

Paddle Wheel Flow Meter

Operating much like a turbine flow meter, the paddle wheel flow meter consists of a freely rotating wheel which is outfitted with magnets on the blades or “paddles” of the wheel.

Helical Flow Meters

Helical gear ("screw-type") flow meters are designed for measuring highly viscous, abrasive, and filled fluids including lubricating and non-lubricating media, such as polyurethane, polymers, greases and oils.

Turbine Flow Meters

Axial turbine flow meters are designed with wear resistant internal components to provide trouble-free operation and a long service life in a wide variety of industrial applications.

Ultrasonic Flow Meters

Non-contact ultrasonic flow meters for accurate, instantaneous mass & volumetric flow rate measurement of clean, non-aerated fluids in full pipes such as water, chemicals, and oils.

Flow Electronics

Electronics coupled with our mechanical flow meters deliver flow data in your preferred format, whether a local display, remote transmitter, or simple pickup.

Rotary Piston

Rotary Piston positive displacement flow meters are ideal for use in applications with very low flow rates and high pressures, such as offshore chemical injection applications.

Turbidity Sensor

AW-Lake's ProScan Turbidity Sensor is ideal for detection of material transitions, monitoring turbidity, and measuring product concentration, such as in dairy processing, juice processing, and brewing operations.

Fluid Power / Hydraulics

Flow meters used to monitor flow readings in fluid power systems are essential to properly monitoring your process, diagnosing system errors, and ensuring system performance. Our expertise in this area goes back decades with numerous flow meters for the hydraulics and fluid power system industry.

Oil & Gas

From corrosive subsea environments, offshore production platforms, onshore oil fields, or refineries we have the flow expertise to tackle these tough jobs. Difficult oil and gas flow metering challenges like high pressures, pulsating flows, corrosive media and harsh environments are our daily business.

Heavy Industrial

For challenging industrial environments like mining, steel & paper mills, and industrial vehicles we offer flow meters with easy flow paths to run thick materials, rugged meter bodies that handle extreme conditions and designs with high shock and vibration resistance.

Paints/Sealants/Adhesives

Automotive plants and their Tier-1 suppliers have been using AW-Lake flow meters for 40+ years to monitor usage of paints, coatings, adhesives, lubricants, and other fluids to maintain strict process control and manage operational costs. Flow meters in these areas must be capable of measuring a wide range of materials.

Water Cooling

Monitoring process cooling systems, including industrial cooling circuits and HVAC systems, helps maintain your plant or building efficiency, conserve energy, and improve the bottom line. Constant monitoring and control of these systems can easily be done using flow monitoring and control instrumentation from AW-Lake.

General Industrial

General industrial plants around the world have been using AW-Lake flow meters to maintain their process operations, plus they have integrated our meters as a vital part of their end product. Our broad portfolio of flow measurement equipment provides solutions to your paint operations.

Test Systems

With increasing product complexity, tighter regulations, and growing demands on companies to reduce operating costs and improve product quality, there is more focus on test and measurement procedures and equipment.

Alternative Energy

As the world shifts towards sustainable practices, the demand for efficient energy production methods intensifies. AW-Lake flow meters are used in many ways within renewable energy sectors such as solar, wind, hydro, and biofuels.

Marine

In a field where fuel consumption attributes to most of the total operating costs, it is critical for marine ship owners and operators to monitor their fuel systems. Accurate fuel consumption is key to understanding how and where to find areas to improve efficiency and control costs.

Chemical

AW-Lake understands the challenges and intricacies of chemical / petrochemical process monitoring with flow meters. We have the depth of experience with corrosive, aggressive liquids and gases that you need in your flow measurement partner.

Environmental

As the the world continues to examine ways to lesson our impact on the environment and develop new technologies to support those efforts, flow measurement enters the conversation more and more.

Aerospace

AW-Lake flow meters are trusted in the aerospace and aviation industry, where they ensure precise measurement and control of fuel, hydraulic fluids, and other critical liquids and gases. They play a vital role in maintaining optimal performance, ensuring safety, and enhancing fuel efficiency.
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Coriolis Mass Flow Meters

High Pressure Hydrogen Coriolis Meters – TCMH 0450

The TCMH 0450 High Pressure Hydrogen Coriolis Mass Flow Meter is the worldโ€™s first MI-002 / OIML137 certified Coriolis flow meter for hydrogen dispensing and is offered in three pressure ratings: 6,000 psi, 10,000 psi and 15,200 psi. The U-shape tubes are made from Sandvikยฎ Alloy HP 160.
Measuring Accuracy¹:

Flow:  ± 0.5% of flow rate
Mass Repeatability:  ± 0.1% of flow rate
Zero Stability:  0.45 kg/h (0.0165 lb/min)
Temperature:  ±1.8°F, ±0.5% of flow rate (±1°C, ±0.5% of flow rate)

Nominal Flow Rates:

14.5 lbs/min @ 15,200 psi  (400 kg/hr @ 1,050 bar)
13.3 lbs/min @ 10,000 psi  (362 kg/hr @ 690 bar)
11.6 lbs/min @ 6,000 psi  (316 kg/hr @ 414 bar)

Pressure Rating:

TCMH 0450-HC-SPMS:  15,200 psi  (1050 bar)
TCMH 0450-HC-SRMS:  10,000 psi (690 bar)
TCMH 0450-HC-SSMS:  6,000 psi  ( 414 bar)

Operating Conditions – Process:

Process Temperature Range:  -40 °F to +212 °F (-40°C to +100°C)
Medium:  Gas
Pressure Effect on Sensitivity:  0.000014% / psi (0.0002% / bar)

Operating Conditions – Environment:

Ambient Temperature Range:  -40 °F to +158 °F (-40°C to +70°C)
Relative Humidity:  max. 95%

Materials of Construction (Wetted):

Tubes:  Sandvik Alloy HP 160
Case:  1.4404 / AISI 316L Stainless Steel
Flow Splitter:  1.4404 / AISI 316L Stainless Steel
For more detailed material information, see Technical Datasheet or individual product Spec Sheets.

Burst Protection:

Rupture Disk:  G½”

Connectivity:

Flow Meter:  3/8” Autoclave (standard), others available on request
Signal Cable Connection:  Push-pull connector

EX Certifications:

CSA (US & Canada):
Sensor: Class I, Division 1: Group A, B, C, D, T2…T4
Transmitter: Class I, Division 1: Group A, B, C, D, T4

ATEX Zone 1:
Sensor:
 Group II 1G Ex ia IIC T4…T2 Ga
Transmitter: Group II 2(1)G Ex db (ia Ga)  IIC T4 Gb

ATEX Zone 2:  II 3G Ex nA IIC T4

IECEx Zone 1:
Sensor:  
Group II 1G Ex ia IIC T4…T2 Ga
Transmitter:  Group II 2(1)G Ex db (ia Ga)  IIC T4 Gb

EAC (TR-CU):
Sensor:
0Ex ia IIC T4…T2 Ga X
Transmitter: 1Ex d (ia Ga) IIC T4 Gb X

KGS (Korea):
Sensor:
 Ex ia IIC T4
Transmitter: Ex d (ia) IIC T4

¹ Stated flow accuracy combines the effects of repeatability, linearity and hysteresis.

Measuring Accuracy¹:

Flow:  ± 0.2% of flow rate
Mass Repeatability:  ± 0.075% of flow rate
Zero Stability:  0.34 kg/h (0.012 lb/min)
Temperature:  ±1.8°F, ±0.5% of flow rate (±1°C, ±0.5% of flow rate)

¹ Stated flow accuracy combines the effects of repeatability, linearity and hysteresis.

Nominal Flow Rates:

@ 850 kg/m3:

6.6 lbs/min @ 1 cSt (180 kg/hr @ 1 cSt)
5.5 lbs/min @ 10 cSt (150 kg/hr @ 10 cSt)
2.4 lbs/min @ 30 cSt (65 kg/hr @ 30 cSt)

Pressure Rating:

TCMH 0450-HC-SPOS:  15,200 psi  (1050 bar)
TCMH 0450-HC-SROS:  10,000 psi (690 bar)
TCMH 0450-HC-SSOS:  6,000 psi  ( 414 bar)

Operating Conditions – Process:

Process Temperature Range:  -40°F to +212°F (-40°C to +100°C)
Medium:  Liquid
Pressure Effect on Sensitivity:  0.000014% / psi (0.0002% / bar)

Operating Conditions – Environment:

Ambient Temperature Range:  -40°F to +158°F (-40°C to +70°C)
Relative Humidity:  max. 95%

Materials of Construction (Wetted Parts):

Tubes:  Sandvik Alloy HP 160
Case:  1.4404 / AISI 316L Stainless Steel
Flow Splitter:  1.4404 / AISI 316L Stainless Steel
For more detailed material information, see Technical Datasheet or individual product Spec Sheets.

Burst Protection:

Rupture Disk:  G½”

Connectivity:

Flow Meter:  3/8” Autoclave (standard), others available on request
Signal Cable Connection:  Push-pull connector

EX Certifications:

CSA (US & Canada):
Sensor: Class I, Division 1: Group A, B, C, D, T2…T4
Transmitter: Class I, Division 1: Group A, B, C, D, T4

ATEX Zone 1:
Sensor:
II 1G Ex ia IIC T4…T2 Ga
Transmitter: II 2(1)G Ex db (ia Ga)  IIC T4 Gb

ATEX Zone 2:  II 3G Ex nA IIC T4

IECEx Zone 1:
Sensor: 
II 1G Ex ia IIC T4…T2 Ga
Transmitter:  II 2(1)G Ex db (ia Ga)  IIC T4 Gb

EAC (TR-CU):
Sensor:
0Ex ia IIC T4…T2 Ga X
Transmitter: 1Ex d (ia Ga) IIC T4 Gb X

KGS (Korea):
Sensor:
 Ex ia IIC T4
Transmitter: Ex d (ia) IIC T4

TCMH 0450-HC-SPMS

MASS FLOW RATE:   14.5 lb/min

PRESSURE RATING:   15,200 psi  |  1050 bar

CONNECTION:   3/8″ Autoclave

 

TCMH 0450-HC-SRMS

MASS FLOW RATE:   13.3 lb/min

PRESSURE RATING:   10,000 psi  |  690 bar

CONNECTION:   3/8″ Autoclave

 

TCMH 0450-HC-SSMS

MASS FLOW RATE:   11.6 lb/min

PRESSURE RATING:   6,000 psi  |  414 bar

CONNECTION:   3/8″ Autoclave

 

 

TCE 8000/8100 REMOTE Mount Version

Wall mounted multi-variable Coriolis transmitter that can output flow rate, total, density or temperature.

With hazardous area approvals: CSA (US & Canada), ATEX, and IECEx.

» Learn more

 

 

TCMH 0450 High Pressure Coriolis Mass Meter for Gas Datasheet


TCMH 0450 High Pressure Coriolis Mass Meter for Liquids Datasheet


TCMH 0450 Instruction Manual


CRN Certificates – TRICOR Coriolis


Monitoring Fuel in Hydrogen Filling Stations – Coriolis – Application Stories


PactWare DTM for HART 7.5 (CH1) TRICOR


HART 7 Device Driver – TRICOR Rev3 475 DD Rev2


HART 7 Device Driver – TRICOR Rev3 HCF DD Rev2


USB TRICOR RS485 Driver Software


Remote Software – TRICOR Configurator 3.53 for all TCM from firmware 3.50


Standard Sandvik HP160 steel tubes

Superior resistance to cracking caused by hydrogen

Global OMIL Certification for Hydrogen

Allows custody transfer of Hydrogen in fueling operations

High Pressure Construction of Tubes

Allows pressures up to 15,200 psi

High Pressure Autoclave Connectors

Can be used regardless of process pressure

Certified for Class I, Division 1 Locations

Can be used in any safety classified area

Real-World Applications


Hydrogen Fueling Stations

For hydrogen fueling stations, TRICOR Coriolis Mass Flow Meters are installed directly in the dispenser, upstream of the heat exchanger to direct measurement of the mass flow and density of the hydrogen for billing and accurate dispensing. This setup eliminates undefined gas volumes in the pipe system and protects the flow meter from temperature gradients, ensuring accurate and reliable hydrogen measurement.

Hydrogen Fueling Stations

For hydrogen fueling stations, TRICOR Coriolis Mass Flow Meters are installed directly in the dispenser, upstream of the heat exchanger to direct measurement of the mass flow and density of the hydrogen for billing and accurate dispensing. This setup eliminates undefined gas volumes in the pipe system and protects the flow meter from temperature gradients, ensuring accurate and reliable hydrogen measurement.

We work with you to increase process efficiency, reduce costly production down-time, establish real-time monitoring and control, and provide the critical tracking and record keeping necessary to meet EPA regulations.