Equations for Long-Range Groundwater Flow and Water Table Evolution

TL;DR

This paper compiles notes on long-range groundwater flow equations, focusing on horizontal flow over large distances, simplified models, and numerical solution approaches, primarily for educational purposes.

Contribution

It provides a summarized, educational overview of long-range groundwater flow equations, including simplifications and numerical methods, without introducing new theoretical developments.

Findings

Simplified models for long-range groundwater flow

Numerical solution strategies for flow equations

Analysis of steady-state and transient flow cases

Abstract

These are notes that I compiled while studying the equations of long-range groundwater flow for my first paper. By "long-range," I mean horizontal distances that are significantly greater than the vertical thickness of the aquifer, in addition to some other assumptions discussed below. None of this material constitutes original development of important new equations, but it might be useful to someone learning about simplified models of groundwater flow for numerical solution. I start from Darcy's Law, reminding myself how to formulate the vertically averaged conservation law for groundwater flow. Then I discuss some ideas about how to solve the flow equation numerically. After that, I go through some cases where the hydraulic conductivity is a simple function of the vertical coordinate and the the steady-state flow equation can be simplified. Finally, there is a very short discussion of the transient case.