Pipe flow is crucial for transporting industrial fluids over large-scale distances. A good example is the Alaskan North Slope pipeline, which transports crude oil hundreds of miles from the drilling center to a transportation hub. Turbulent drag reduction is a well-explored phenomenon and is crucial for energy savings attempts. However, the degree to which it scales up to industrial flow has not been well-defined. This research attempts to address this gap by exploring oscillating wall boundary conditions and its effects on turbulent drag reduction.