This comprehensive learning track provides a deep understanding of flow through porous media. It begins with an introduction to porous media, exploring the concept of porosity, superficial and interstitial velocity, and Darcy's Law. The learning track discusses the various applications of flow through porous media in fields such as geophysical or geochemical flow, hydrology, and hydrocarbon recovery. It delves into mass continuity in porous media, explaining theories of flow and how to measure porosity and permeability. The track also discusses the concept of streamlines and stream tubes. It also covers transport mechanisms in porous media, including types of diffusion, viscous flow resistance, and Fick's law of diffusion. It further explores flow equations, including the Ergun equation, and the concept of fluidization. The track also covers miscible displacement in porous media, discussing the effects of Poiseuille's flow and Knudsen diffusion on the effective permeability of the medium. The track also explores immiscible flow through porous media, providing a comprehensive understanding of concepts such as relative permeability, two-phase flow, surface tension, and interfacial tension. Moving forward, it covers the interception of suspended solids and the migration of fines in porous media. Lastly, it concludes with a discussion on flow through deformable porous media, focusing on varying porosity and effective stress, and heat transfer and characterization in porous media, including thermal equilibrium and non-equilibrium methods.