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transition. Internationally recognized for pioneering wind technology and smart energy systems, the department is structured into four divisions: Materials and Components, Wind Turbine Technology, Wind Energy
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quantifying the economic, environmental, and social sustainability of emerging feedstocks, including CO₂, methane, formic acid, and methanol, in comparison to traditional sources such as sugars, lignocellulosic
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of gaseous fuels remains a major challenge. Inspired by nature’s own strategies where organic molecules are used instead of hydrogen gas to store, transport, and deliver electrons in the form of hydride (H
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the measurement of blood and, in particular, measurements from a blood gas analyser. Often, blood samples can be incorrectly measured due to gas contamination, delayed analysis time or other disturbances
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transport of gaseous fuels remains a major challenge. Inspired by nature’s own strategies where organic molecules are used instead of hydrogen gas to store, transport, and deliver electrons in the form
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the measurement of blood and, in particular, measurements from a blood gas analyser. Often, blood samples can be incorrectly measured due to gas contamination, delayed analysis time or other disturbances
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). The detailed tasks are to: Quantify the contribution and effects of radiative heat transfer under engine-like conditions, and propose an accurate, computationally efficient gas radiation models suitable for CFD
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defined gas-liquid interface apparatus and other reactors to determine stability under a range of experimental conditions. Using the experimental data to develop a model describing the effect of conditions
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, computationally efficient gas radiation models suitable for CFD implementation Perform accurate CFD simulations of green fuel combustion in a CVCC and validate the CFD by detailed experimental data to be provided