Home / Air-Met Scientific Pty Ltd – Mackay Site

Air-Met Scientific Pty Ltd

Site

Air-Met Scientific Pty Ltd – Mackay Site

Accreditation No.

14926

Site No.

24703

Date of Accreditation

01 Feb 2021

Address

135 Sydney Street
Mackay, QLD 4740
Australia

airmet.com.au

Contact

Mr Jonathan Alexander P: +61 0458867178

Availability

Services available to external clients

Scope of Accreditation

Print scopes

Air-Met Scientific Pty Ltd – Mackay Site

ISO/IEC 17025 (2017)

Calibration

The uncertainty of measurement is reported as an expanded uncertainty having a level of confidence of 95% unless stated otherwise

Service

Product

Determinant

Technique

Procedure

Limitations

Chemical metrology - Gas analysers

Gas analysers; Mine safety and confined space equipment

Concentration

Comparison measurement against a certified reference material; Direct measurement by certified reference material

in-house methods B; C; S

Including on-site calibrations

Capability

Including on-site calibrations
With calibration and measurement capability-
CH₄:Catalytic combustible detector in volume/volume reading - ±0.01 x 10^-6 at Zero instrument reading and ±5.6% of reading over the range of 0.3 x 10^-6 to 4.5 x 10^-6v/v of CH₄
CH₄:Catalytic combustible detector in % LEL reading - ±1 x 10^-6at Zero instrument reading and ±6.1% of reading over the range of 5.0 x 10^-6 to 90.0 x 10^-6 v/v of CH₄
CH₄: Flame Ionization Detector in volume/volume reading - ±0.01 x 10^-6 at Zero instrument reading and ±3.2% of reading over the range of 0.3 x 10^-6 to 4.5 x 10^-6 v/v of CH₄
CH₄: Infrared detector in volume/volume reading - ±1 x 10^-6 at Zero instrument reading and ±5.6% of reading over the range of 0.8 x 10^-6 to 14.2 x 10^-6 v/v of CH₄
CH₄ :Solid-state semiconductor detector parts per million reading - ±1 x 10^-6 at Zero instrument reading and ±5.6% of reading over the range of 2.3 x 10^-3 to 41.4 x 10^-3 v/v of CH₄
CH₄: Thermal conductivity detector in % LEL reading - ±1x 10^-6 at Zero instrument reading and ±6.1% of reading over the range of 0.3 x 10^-6 to 4.5 x 10^-6 v/v of CH₄
C₄H₈: Photo Ionization Detector in part per million reading - ±1 x 10^-6 at Zero instrument reading and ±11.3% of reading over the range of 9.7 x 10^-6 to 175 x 10^-6 v/v of C₄H₈
C₅H₁₂: Catalytic combustible detector in % LEL reading - ±1 x 10^-6 at Zero instrument reading and ±7.4% of reading over the range of 2.5 x 10^-6 to 45 x 10^-6 v/v of C₅H₁₂
C₆H₁₄: Catalytic combustible detector in % LEL reading - ±1 x 10^-6at Zero instrument reading and ±5.6% of reading over the range of 2.5 x 10^-6 to 45 x 10^-6 v/v of C₆H₁₄
CO: Electrochemical detector in part per million reading - ±1 x 10^-6 at Zero instrument reading and ±9.4% of reading over the range of 10.1 x 10^-6 to 182 x 10^-6 v/v of CO
CO₂: Infrared detector in volume/volume reading - ±0.01 x 10^-6 at Zero instrument reading and ±10.3% of reading over the range of 1 x 10^-6 to 18 x 10^-6 v/v of CO₂
CO₂: Infrared / Electrochemical detector in volume/volume reading - ±0.01 x 10^-6 at Zero instrument reading and ±10.3% of reading over the range of 1 x 10^-6 to 18 x 10^-6 v/v of CO₂
H₂: Electrochemical detector in part per million reading - ±1 x 10^-6 at Zero instrument reading and ±6.5% of reading over the range of 48 x 10^-6 to 864 x 10^-6 v/v of H₂
H₂: Catalytic combustible detector in % LEL reading - ±1 x 10^-6 at Zero instrument reading and ±6.1% of reading over the range of 5 x 10^-6to 90 x 10^-6 v/v of H₂
H₂S: Electrochemical detector in part per million reading - ±0.1 x 10^-6 at Zero instrument reading and ±9.4% of reading over the range of 2.5 x 10^-6 to 45 x 10^-6 v/v of H₂S
NH₃: Electrochemical detector in part per million reading - ±1 x 10^-6 at Zero instrument reading and ±15.9% of reading over the range of 9.9 x 10^-6 to 178.2 x 10^-6 v/v of NH₃
NO: Electrochemical detector in part per million reading - ±1 x 10^-6at Zero instrument reading and ±13.8% of reading over the range of 5.4 x 10^-6 to 97.2 x 10^-6 v/v of NO
NO₂: Electrochemical detector - ±0.1 x 10^-6at Zero instrument reading and ±11.5% of reading over the range of 5.2 x 10^-6 to 93.6 x 10^-6 v/v of NO₂
O₂: Electrochemical detector in volume/volume reading - ±0.1 x 10^-6at Zero instrument reading and ±1.1% of reading over the range of 1.8 x 10^-6 to 31.9 x 10^-6 v/v of O₂
O₂: Electrochemical detector in part per million reading - ±1 x 10^-6at Zero instrument reading and ±8.1% of reading over the range of 100 x 10^-6 to 1800 x 10^-6 v/v of O₂
SO₂: Electrochemical detector in part per million reading - ±0.1 x 10^-6at Zero instrument reading and ±7.4% of reading over the range of 4.9 x 10^-6 to 88.2 x 10^-6 v/v of SO₂

Including on site calibrations -
With a calibration and measurement capability of -
Ammonia : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 15.5% of the reading over the range of 9.9x10^-6to 178.2 10^-6 %(v/v) of ammonia
Butene : Photo ionisation detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 5.0% of the reading over the range of 9.7x0^-6to 175x0^-6%(v/v) of butene
Carbon dioxide : Infrared/Electrochemical with reading in % (volume/volume). Measurement uncertainty of 1.0x10^-6 %(v/v) at zero instrument reading and 5.6% of the reading over the range of 1x10^-6 to 18x10^-6 %(v/v) of carbon dioxide
Carbon monoxide : Electrochemical detector with reading in parts per million reading (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument and 5.0% of the reading over the range of 10.1x10^-6 to 182x10^-6 %(v/v) of carbon monoxide
Hexane :Catalytic combustion detector with reading in % Lower Explosive Limit (LEL) Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 5.6% of the reading over the range of 2.5x10^-6 to 45x10^-6 %(v/v) of hexane
Hydrogen : Catalytic combustion detector with reading in % Lower Explosive Limit (LEL). Measurement uncertainty of 110^-6 %(v/v) at zero instrument reading and 6.5% of the reading over the range of 5x10^-6 to 90x10^-6 %(v/v) of hydrogen
Hydrogen : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 6.5% of the reading over the range of 48x10^-6 to 864x10^-6 %(v/v) of hydrogen
Hydrogen sulfide : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 0.1x10^-6 %(v/v) at zero instrument reading and 9.9% of the reading over the range of 2.5x10^-6 to 4510^-6 %(v/v) of hydrogen sulfide
Methane : Catalytic combustion detector with reading in % (volume/volume). Measurement uncertainty of 0.01x10^-6 %(v/v) at zero instrument reading and 2.3% of the reading over the range of 0.3x10^-6 to 4.5x10^-6%(v/v) of methane
Methane : Catalytic combustion detector with reading in % Lower Explosive Limit (LEL). Measurement uncertainty of 1x10^-6%(v/v) at zero instrument reading and 5.6% of the reading over the range of 5.0x10^-6 to 90.0x10^-6 %(v/v) of methane
Methane : Flame ionisation detector with reading in % (volume/volume). Measurement uncertainty of 0.01x10^-6%(v/v) at zero instrument reading and 4.5% of the reading over the range of 0.3x10^-6to 4.5x10^-6%(v/v) of methane
Methane : Infrared detector with reading in % (volume/volume). Measurement uncertainty of 1x10^-6at zero instrument reading and 5.5% of the reading over the range of 0.8x10^-6to 14.2x10^-6%(v/v) of methane
Methane : Solid-state semiconductor detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6%(v/v) at zero instrument reading and 5.6% of the reading over the range of 0.8x10^-6to 14.2x10^-6%(v/v) of methane
Methane : Thermal conductivity detector with reading in % Lower Explosive Limit (LEL). Measurement uncertainty of 1x10^-6%(v/v)at zero instrument reading and 6.1% of the reading over the range of 0.3x10^-6to 4.5x10^-6%(v/v) of methane
Nitric oxide : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 4.5% of the reading over the range 5.4x10^-6 to 97.2x10^-6 %(v/v) of nitric oxide
Nitrogen dioxide : Electrochemical detector with reading parts per million (ppm). Measurement uncertainty of 0.1x10^-6 %(v/v) at zero instrument reading and 5.2x10^-6 to 93.6x10^-6 %(v/v) of nitrogen dioxide
Oxygen : Electrochemical detector with reading in % (volume/volume). Measurement uncertainty of 0.1x10^-6 %(v/v) at zero instrument reading and 1.7% of the reading over the range 1.8x10^-6 to 31.9x10^-6 %(v/v) of oxygen
Oxygen : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 1x10^-6 %(v/v) at zero instrument reading and 8.1% of the reading over the range of 100x10^-6 to 1800x10^-6 %(v/v) of oxygen
Pentane : Catalytic combustion detector with reading in % Lower Explosive Limit (LEL). Measurement uncertainty of 1x10^-6%(v/v) at zero instrument reading and 3.6% of the reading over the range of 2.50x10^-6to 45x10^-6%(v/v) of pentane
Sulfur dioxide : Electrochemical detector with reading in parts per million (ppm). Measurement uncertainty of 0.1x10^-6 %(v/v) at zero instrument reading and 5.5% of the reading over the range of 4.9x10^-6 to 88.210^-6 %(v/v) of sulfur dioxide

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