![]() A confined aquifer is a primary source for well tapping and is defined to be an aquifer bounded by an upper and lower bed of material that allows only small amounts of groundwater to penetrate through. Groundwater resources in a confined aquifer with a nonsteady-state flow can be evaluated for the consideration of the construction of wells. Storage factors in confined aquifers are much lower because they are not drained during pumping and any water released from storage is obtained primarily by compression of the aquifer and expansion of the water when pumped.Next: Theis Equation Up: No Title Previous: Darcy's Law in In reality, the storativity factor of confined aquifers can be as small as 10 -6. Groundwater levels in confined aquifers are very sensitive to changes in storage. Groundwater drawdown in confined aquifer (m) = groundwater storage loss (m) / storativity The drawdown is relatively large compared to an unconfined aquifer. This means that for storage loss of 1 ML, the groundwater level would be drawn down by 10 m or much more. This behaviour is due to the unique storage factor of a confined aquifer called storativity, that can be very small (0.01 or much smaller). Again, the storage loss is equivalent to 0.1 m over an area of 100 x 100 m. If a confined aquifer lost an equal volume of water (1 ML or 1,000 m 3) due to extraction by pumping, the water level would fall much further (picture on the right). Type 2 - Water Level response in a Confined Aquifer Groundwater drawdown in unconfined aquifer (m) = groundwater storage loss (m) / specific yield The groundwater level response is in a way magnified by the aquifer. This means that for 1 ML (or 100 mm) of storage loss, the water level is drawn down by 0.4 m (or 400 mm). The unique storage property of an unconfined aquifer is called a specific yield and is typically 0.25. The unconfined aquifer losses 1 ML (or 1,000 m 3) due to 100 mm of evapotranspiration by plants over an area of 100 x 100 m (picture on the left). Type 1 - Water Level response in an Unconfined Aquifer Let's look at how a watertable level and a pressure level respond to an equal loss of 1 ML from each of these two types of aquifer. However, a groundwater pressure level is measured in a bore that draws from a confined aquifer. The watertable is measured in a bore that draws from an unconfined aquifer. Confined aquifers are generally deeper aquifers, although in some environments, even aquifers within a few metres of the surface behave as confined aquifers. Groundwater level behaviour is quite different for shallow aquifers (unconfined), and aquifers that are pressurised by the weight of water and sediment or rock that is above (confined). Anyone can make this mistake if they haven't completed specialist groundwater training, even scientists and engineers! The second common mistake is not recognising the unique storage factors of aquifers when calculating storage changes from water level changes. That's less groundwater storage than you might think by a factor of four! Groundwater storage is actually 25% of this volume, equivalent to 25,000 m 3 (or 25 ML). The available groundwater storage in a 10 metre thick aquifer, over an area of 100 metres by 100 metres (1 hectare), is not 100,000 m 3 (or 100 ML). There are only a few small areas of Australia that have vast caverns or caves, restricted to limestone deposits Groundwater storage is generally limited to small pore spaces in sands and gravels, and sometimes fractures in rocks.įor example, a sand aquifer contains 75% sand particles and 25% pore spaces. The first common mistake is to overestimate the volume of pore spaces that can be filled with water. There are two common mistakes often made when calculating how much groundwater storage levels have changed. However, there are a few tricks to interpreting the levels. Changes in groundwater levels can be used to calculate how much groundwater storage has increased due to recharge, or decreased due to discharge such as extraction for use. Groundwater levels - and changes in those levels - are often used to gauge the volume of water stored in aquifers. ![]() Differences in water level response to extraction in unconfined and confined aquifers. ![]()
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