Woodside Energy Ltd

Site

Woodside Production Laboratory

Accreditation No.

1905

Site No.

1898

Date of Accreditation

10 Jan 1985

Address

Burrup Material Facility Laboratory
Karratha, WA 6714
Australia

woodside.com.au

Contact

Mr Iain Hastie P: +61 (08) 91590866

Availability

Services not available to external clients

Scope of Accreditation

Print scopes
Woodside Production Laboratory

ISO/IEC 17025 (2017)

Environment

Service Product Determinant Technique Procedure
Analysis for nutrients Discharge waters - Offshore; Industrial waters - Treated; Potable waters; Sewage; Steam-raising waters; Trade wastes Nitrogen - Total UV-vis spectrophotometry

in-house method AN-W-360
Analysis for physical and chemical characteristics Discharge waters - Onshore; Potable waters; Sewage; Steam-raising waters; Trade wastes Chemical oxygen demand (COD) UV-vis spectrophotometry

in-house method AN-W-150
Oil - Total; Oil and grease Nondispersive infrared (NDIR)

in-house method AN-M-140
Solids - Suspended Gravimetric

in-house method AN-W-210
Solids - Dissolved Gravimetric

in-house method AN-W-200
Turbidity Turbidometry

in-house method AN-W-190
pH Electrometric

in-house method AN-M-160
Discharge waters - Onshore; Potable waters; Sewage; Trade wastes Electrical conductivity Electrometric

in-house method AN-W-180
Emissions - Stack Nitrogen - Oxidised Gas analyser

in-house method AN-M-110
Industrial waters - Treated; Potable waters; Sewage; Steam-raising waters; Trade wastes Activated N-methyldiethanolamine (aMDEA); Triethylene glycol (TEG, triglycol) GC-FID

in-house method AN-G-180
Sample collection Emissions Not applicable Gas analyser

in-house method AN-M-110
Potable waters; Sewage; Waste waters Not applicable Grab

in-house method AN-S-150 and in-house method AN-S-200

ISO/IEC 17025 (2017)

Materials

Service Product Determinant Technique Procedure Limitations
Analysis of biofuels, hydrocarbon fuels and related fuel products Condensate Density Density meter

ASTM D5002, in-house method AN-P-160
Vapour pressure Mini method

ASTM D5191, in-house method AN-P-180
Sulfur - Total UV fluorescence

ASTM D5453, in-house method AN-P-190
Colour Lovibond tintometer

ASTM D6045 and in-house method AN-P-171
Moisture Gravimetric

in-house method AN-P-260
Sediment; Water Gravimetric

MPMS10.4
Liquefied petroleum gases (LPG) Copper corrosion Copper strip

ASTM D1838, in-house method AN-P-140
Comparison with specification values GC-FID

ASTM D1835, in-house method AN-G-250
1-Propanethiol; Carbonyl sulfide; Ethylmercaptan; Hydrogen sulfide; Methylmercaptan; Sulfur - Total GC-SCD

ISO 19739, in-house method AN-G-130
Residual matter Gravimetric

JLPGAS-03, in-house method AN-P-150
Composition of gaseous fuels GC-FID

ASTM D2163, in-house method AN-G-250
Liquefied petroleum gases (LPG); Liquid petroleum (LP) Physical properties inferred from composition Calculation

ASTM D2598 and GPA 2145
Natural gas Composition of gaseous fuels Electrochemical cell analyser; Gas chromatography (GC)

ASTM D1945, GPA 2261 and GPA 2286
1-Propanethiol; Carbonyl sulfide; Dimethylsulfide; Ethylmercaptan; Hydrogen sulfide; Methylmercaptan; Sulfur - Total GC-FID

ISO 19739 and in-house method AN-G-130
Sample collection Gases and aerosols Not applicable Not applicable

in-house method AN-S-180, in-house method AN-S-210 and in-house method AN-S-140

The only data displayed is that deemed relevant and necessary for the clear description of the activities and services covered by the scope of accreditation.

Grey text appearing in a SoA is additional freetext providing further refinement or information on the data in the preceding line entry.