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Ansaldo Energia?s gas turbine achieves validation

The GT36?s combustion system has already been tested as single component in a combustor test rig, at full size and under full massflow, at the German Aerospace Center in Cologne since 2013. (Image source: Ansaldo Energia)

The first GT36 Unit, Ansaldo Energia?s H-Class gas turbine model, has successfully completed the first phase of the comprehensive validation programme at the Birr Test Power Plant in Switzerland

The test power plant is a full scale simple cycle power station, built in 2015/2016, that can be used for the operation and validation of the fully instrumented engine under real power plant conditions, because the power is dispatched to the Swiss Power Grid.

The test results reported for the GT36-S6 (60Hz rating) confirmed power output above 340 MW at 41 per cent efficiency. In combined cycle this corresponds to performance exceeding 500MW at 61.3 per cent net efficiency in ISO conditions and 720MW at 61.5 per cent efficiency for the GT36-S5 (the 50Hz scaled version).

The tests fully confirm the high performance, low emissions over the entire load range, and resulting wide operation window of this engine, according to the company.

The test programme included stress testing of the two stages of the sequential combustion system, part and full load mapping, transient operation and performance testing. The validation engine is equipped with more than 3,000 measurement points, including a telemetry system which transfers more than 500 measurements from the rotating parts.

Full engine validation is an integral part of the development of Ansaldo Energia?s new turbine. The thorough validation process includes design validation with engineering tools, component validation, full engine validation and field monitoring.

The unique characteristics of the GT36 provide a very useful response to power market requirements today and in the future, where combined cycle plants need to offer high efficiency coupled with high operational flexibility, because power output has to follow the fluctuating needs of the grid in order to compensate and back-up generation using intermittent renewable sources.