[HTML][HTML] Optimization Based on Computational Fluid Dynamics and Machine Learning for the Performance of Diffuser-Augmented Wind Turbines with Inlet Shrouds
PW Hwang, JH Wu, YJ Chang - Sustainability, 2024 - mdpi.com
A methodology that could reduce computational cost and time, combining computational
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
Optimization Based on Computational Fluid Dynamics and Machine Learning for the Performance of Diffuser-Augmented Wind Turbines with Inlet Shrouds
PW Hwang, JH Wu, YJ Chang - Sustainability, 2024 - econpapers.repec.org
A methodology that could reduce computational cost and time, combining computational
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
Optimization Based on Computational Fluid Dynamics and Machine Learning for the Performance of Diffuser-Augmented Wind Turbines with Inlet Shrouds.
PW Hwang, JH Wu, YJ Chang - Sustainability (2071-1050), 2024 - search.ebscohost.com
A methodology that could reduce computational cost and time, combining computational
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
Optimization Based on Computational Fluid Dynamics and Machine Learning for the Performance of Diffuser-Augmented Wind Turbines with Inlet Shrouds
PW Hwang, JH Wu, YJ Chang - Sustainability, 2024 - ideas.repec.org
A methodology that could reduce computational cost and time, combining computational
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …
fluid dynamics (CFD) simulations, neural networks, and genetic algorithms to determine a …