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Purdue University

Wells Hydraulics

Purdue University via edX

Overview

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Groundwater is the water beneath the ground surface. It is a vast freshwater reservoir often overlooked because invisible, yet 1000 times greater than all lakes and rivers. The Earth is blue for its oceans, but green for the freshwater under our feet. Half of the world’s population rely on groundwater for drinking and almost half of the irrigated land now depends on groundwater, a ten-fold increase in the past 50 years. In order to use the water from the ground, we first have to extract it! This course introduces wells hydraulics. Wells are used to provide groundwater for domestic, agricultural or industrial uses. Wells are also used in applications to control groundwater flow and contamination. Pump and treat systems are designed to extract contaminated water before it can be treated. The treated water is released to the environment, sometimes using recharge wells that can replenish aquifers. Wells can also control salt intrusions in coastal environments or the water table level at a construction site.

This course addresses questions such as:

  • How exactly do we extract groundwater?
  • How do we know if an aquifer can provide enough water?
  • How do we model underground flow to wells?
  • How can we use wells to remove water from construction sites or water-logged fields?

This wells hydraulics course starts with a description of steady flow to wells. We introduce the notion of radial coordinates and steady flow to wells in confined and unconfined aquifers. We also introduce finite difference methods to model flow to wells. We introduce transient flows in confined, semiconfined and unconfined aquifers. We use graphic methods and semi-automated methods to calculate aquifer properties from well tests. We also introduce slug tests and their analysis.

After the well and slug tests, we introduce well fields and issues of dewatering. We review the superposition principle and problems of domain boundaries before focusing on dewatering examples. We continue to explore the topic of well fields in the context of extraction and injection wells, with an example of pump and treat design and an in-situ remediation design. We also show an example of a well model in MODFLOW.

Syllabus

Week 1: Steady Flow to well

We start with the description of radial coordinates and steady flow to wellsin confined and unconfined aquifers. We also introduce finite difference methods.

  • Steady Flow to Well
  • Radial Coordinates
  • Steady Flow to Confined Well
  • Finite Difference

Week 2: Transient Confined and Semi-Confined Flows

We describe transient flows in confined and semiconfined aquifers. We use graphic methods and semi-automated methods to calculate aquifer properties from well tests.

  • Transient Confined Flow
  • Transient Confined
  • Transient Confined: Graphic Method
  • Transient Confined: Straight Line
  • Transient Leaky Confined

Week 3: Transient Unconfined Flows

We continue to describe well tests in unconfined aquifers to calculate unconfined aquifer properties. We also introduce slug tests and their analysis.

  • Transient Unconfined
  • Slug Tests:
    • Cooper Method
    • Hvorslev Method
    • Bouwer and Rice

Week 4: Well Fields and Dewatering

We start by reviewing the superposition principle and review the problem of domain boundaries. We then focus on dewatering examples.

  • Wells Fields
  • Superposition Principle
  • Boundaries
  • Dewatering

Week 5: Pump and treat / Capture Zones and MODFLOW models

We continue to explore the topic of well fields in the context of extraction and injection wells. We show an example of pump and treat design and an in-situ remediation design. We also show an example of a well model in MODFLOW.

  • Pump and Treat/ Capture Zones
  • MODFLOW

Taught by

Antoine Aubeneau

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