Norbert Eich scite author profile

Modern wind turbines have a driving torque in the range of up to 10 MNm. The measurement of such high torques poses challenges, as there is no standard measurement equipment for this torque level available today. During the EU funded EcoSwing project, the world’s first superconducting low-cost and lightweight multi-megawatt wind turbine generator has been designed and tested on the DyNaLab nacelle test rig of Fraunhofer IWES. For this test campaign, a specifically designed torque measurement system has been developed to measure the torque directly at the flange of the device under test in order to evaluate the efficiency of the power train.

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10 MW mechanical power transfer standard for nacelle test benches using a torque transducer and an inclinometer

Song

Weidinger

Eich

et al. 2021

Measurement: Sensors

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Implementation and Experimental Validation of a Dynamic Model of a 10 MW Nacelle Test Bench Load Application System

Siddiqui

Eich

Eustorgi

et al. 2020

J. Phys.: Conf. Ser.

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The 10 MW Dynamic Nacelle Testing Laboratory of Fraunhofer IWES provides a controlled environment for performing electrical and mechanical tests on a wind turbine nacelle. Apart from physical testing, system level simulations are another paradigm in the framework of nacelle testing. In this contribution, the development of a dynamic model of the load application system for the 10 MW nacelle test bench is presented. The test bench load application system controls are integrated in the model via co-simulation in Simulink. The model is evaluated using experimental results. By utilizing the modal strain recovery method, a direct comparison of the strain results of the model with the experimental results is achieved. Moreover, it is shown that the actual applied loads on the device under test can be estimated by analysing the strain readings. The developed model provides a platform for developing a high fidelity virtual nacelle test bench.

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Summary report describing current state-of-the-art developments on efficiency determination methods for wind turbines and nacelles in the field and on test benches respectively, their traceability, and general methods for direct and indirect efficiency determination

Zweiffel

Crespo

Vavrečka³

et al. 2021

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Norbert Eich

Need for a traceable efficiency determination method of nacelles performed on test benches

Measuring MNm torques as part of a prototype testing campaign of a high-temperature superconducting generator for wind turbine application in the scope of the Ecoswing project

10 MW mechanical power transfer standard for nacelle test benches using a torque transducer and an inclinometer

Implementation and Experimental Validation of a Dynamic Model of a 10 MW Nacelle Test Bench Load Application System

Summary report describing current state-of-the-art developments on efficiency determination methods for wind turbines and nacelles in the field and on test benches respectively, their traceability, and general methods for direct and indirect efficiency determination

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