GA-370

Trace Gas Monitor

For monitoring quality control of manufactured high-purity gases at air separation and semiconductor plants

GA-370 provides constant, ultrahigh-sensitivity and high-precision monitoring of trace impurities (CO, CO2 and CH4) for quality control at gas manufacturing facilities.


Introduction and application of GA-370

Division: Ambient

Ultra-high Sensitive Measurements

  • A cross-flow modulation dual-beam non-dispersive infrared (NDIR) analyzer provides continuous and stable zero drift-free measurements.
  • Minimum detection limit (MDL) of 10ppb which can support applications where high accuracy measurements are required.

 

Measurement of trace impurities in a balance gas

  • Representative gases such as N2, O2, He, Ar, H2 and Air are supported.

 

Easy maintenance-free operation

  • Operator friendly screen menus simplify analyzer operation, calibration and measurements
  • No optical alignment ever required.
  • A touch color LCD display allows operators to view graphs of accumulated data.

 

Application

  • Trace Impurities Monitoring at Air Separation Plants

Air separation plant separates atmospheric air into its primary components oxygen (O2), nitrogen (N2), and argon (Ar) by distillation at cryogenic temperatures.

Separation of air is performed using the difference in the boiling points of each constituent gas in the distillation unit, but the air must be treated in the pre-purification unit (PPU) before getting into cryogenic distillation process. PPU is designed to remove water vapor, carbon dioxide (CO2), and other impurities contained in the air to ensure water and CO2 does not enter into the distillation unit, where it could cause plugging in the process and create the risk of explosion.

The HORIBA GA-370 Trace Gas Monitor is a useful tool for continuous monitoring of impurities that might be present in the separated gas for safety control. Also, it could be used for measurement of impurities (CO, CO2, CH4) in final product of O2, N2 and Ar for quality assurance.

Principle of Measurement

  • Cross-Modulation Dual-Beam Non-Dispersive Infrared Method

Cross-Modulation NDIR method uses a solenoid valve that switches at a fixed cycle (e.g., 1 Hz) to synchronously and alternately flow a sample gas and a reference gas into the one gas cell to obtain a modulated concentration signal of the gas to be measured.

In this method, when the sample gas and the reference gas are the same gases (zero point), no modulation signal is generated. Absence of mechanical parts such as a rotating sector enables long-term stable output signal.

In cross-modulation dual-beam NDIR method, the use of double beam (light source) and a double cell allows the sample gas and the reference gas to flow alternately into the two cells, the diaphragm of the condenser microphone inside the detector moves to the left and to the right, providing twice the amount of signal comparing with the method when using a rotating sector, thereby improving the SN ratio.

The graph shows the noise level of the cross-modulation dual-beam non-dispersive infrared method, which is extremely low and stable. Thus, even in the measurement of trace concentrations of impurities in high-purity gases, this zero-drift free method provides long-term stability and low noise level.


 

Related Applications

 

Explore more 

▶ Hydrogen Quality Check for FCV at On-Site Hydrogen Station

 

 

Model GA-370
Gases measured CO, CO2, CH4
Bulk gases N2, O2, He, Ar, H2, Air
Number of measurement components 1 component or 2 components (specify a measuring balance gas)
Measuring principle Cross-flow modulation non-dispersive infrared (NDIR) absorption method
Measurement ranges 0 to 1/2/5/10 ppm
Lowest detection limit (2σ) 10 ppb
Repeatability ≤ ± 2% of full scale
Indication error ≤ ± 2% of full scale
Zero Drift ≤ ± 0.02 ppm/day, ≤ ± 0.03 ppm/week
Span Drift ≤ ± 2% of full scale/day, ≤ ± 2% of full scale/week
Response time (T90) 

≤ 180s

Gas flow rate Sample gas : approx. 3.5L/min, reference gas : approx. 3.5L/min, span gas: approx. 3.5L/min

Note: A delivery pressure of 50-100kPa is recommended for both sample and reference gas.

Analog output 

Max. 2 channels isolated output (2 components)

Select one from 0 to 1V, 0 to 10V, 0 to 16mA, 4 to 20mA or 0 to 20mA.

Current output : Allowable load resistance 750Ω or less

Installation conditionsAmbient temperature0 to 40°C
Ambient relative humidity≤85%
DustLess than environmental standard 
Vibration≤ 0.29m/s², at ≤ 100Hz 
External dimensions, weight 430(W) x 221(H) x 555(D) mm (excluding protrusions), approx. 18kg
Power supply 100 to 240V AC, ≤ ± 10% (max. voltage: 250V AC)
Power consumption Approx. 100VA
Monitoring of Impurity in Hydrogen Gas for FCV
Monitoring of Impurity in Hydrogen Gas for FCV
Read more
Test Gas Generation in Research and Testing Laboratories
Test Gas Generation in Research and Testing Laboratories
Read more
Low Concentration Gas Monitoring in Coal and Consumable Fuels
Low Concentration Gas Monitoring in Coal and Consumable Fuels
Read more
On-Site Hydrogen Station
On-Site Hydrogen Station
Read more
2.46 MB
Trace Gas Monitor GA-370 Brochure (version B)
open
6.65 MB
Trace Gas Monitor GA-370 Instruction Manual (version B / April, 2021)
open
0.83 MB
On-Site Hydrogen Station -H2 Quality Check for FCV- (Application Note)
open
0.43 MB
Monitoring of CH4 in Ultra High Purity Oxygen (UHPO) (Application Note)
open
0.43 MB
Carbon Capture and Storage (CCS)
open

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