Turbulent flows refer to the chaotic and unpredictable motion of fluids, such as air or water, characterized by irregular fluctuations in velocity and pressure. This research area focuses on understanding and predicting the behavior of turbulent flows, which play a significant role in various natural and engineering systems, including atmospheric dynamics, ocean currents, and industrial processes. Research in turbulent flows typically involves studying the complex interactions between different scales of motion in the fluid, from the large-scale eddies to the small-scale turbulent structures. Methods used in this field include experimental techniques, such as wind tunnels and water channels, as well as computational modeling and simulations. Understanding turbulent flows is important for a wide range of applications, such as improving the efficiency of aircraft and ship designs, optimizing energy production from wind turbines, and predicting the dispersion of pollutants in the atmosphere. By gaining a better understanding of turbulent flows, researchers aim to develop more accurate models and tools for predicting and controlling the behavior of turbulent systems in various disciplines.