Turbulence affects our everyday lives in many ways, ranging from how smoke rises from cigarettes to bumpy airplane flights. This phenomenon describes the irregular and chaotic movement in some fluids such as air and water, manifesting as vortices of different sizes interacting with each other. Even though turbulence is not fully understood, it is known to originate from the non-linear structure of fluid dynamics. But General Relativity is also a non-linear theory. Does that mean that gravity exhibits turbulence as well? If so, how does it manifest itself in our universe? Through the study of black holes, we are interested in understanding the key concepts and quantities involved in gravitational turbulence and model its consequences on black hole collisions in our universe, which recently became accessible experimentally through Gravitational Wave observations.