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Essais de turbines et d’huiles industrielles

Turbine & industrial oil testing

ALS tests for various types of turbine systems used for power generation: Gas, Steam, Hydroelectric (Hydraulic), and Marine, in a dedicated environment at our accredited specialized laboratories.

Routine turbine and industrial oil testing focuses on monitoring the level of contaminants, turbine oil service life, and the operating health of the power generation equipment. View our video and learn more about our turbine and industrial oil testing.





The ALS advantage

ALS operates the largest global fluid analysis laboratory network. Our laboratories in Australia and North America maintain ISO and/or NATA accreditation for quality assurance and expertise. ALS can be a partner to help maximise your equipment reliability and performance.

ALS also provides comprehensive reporting and all results are made available on our web based reporting system, Webtrieve™.

Monitor your equipment as a whole

Learn more about fluid analysis and how this predictive technique brings more competitiveness, efficiency and sustainability to your company.

Learn more

Turbine Oil Analysis

Depending on the system, turbine oil is required to support journal and thrust bearings is expected to provide trouble free service life for 5 to 15 years. Cleanliness and good oxidation resistance is critical to the performance of these lubricants.

ALS provides testing for routine monitoring to inspect for lubricant cleanliness, contaminants, and general product integrity, as well as component wear. Quarterly and annual testing will look at oxidative and service life performance, varnish potential in the system, as well as routine tests for cleanliness, contaminants, general product integrity, and component wear.

Remaining Life Assessment of Turbine Components:

Metallurgical evaluation

Highly stressed components of steam turbine power plants can suffer from "creep" degradation due to cyclic stress and exposure to high temperatures. ALS uses metallographic techniques available to evaluate creep distress by using the correlation of microstructure of the original material to the microstructure of material in service and also by measuring hardness.