Difference between revisions of "Permeameters"

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The order in which the parts are assembled will be dictated by which connectors can fit through which holes within the connecting plates. It is easiest to connect up the thinnest tubes first.  
 
The order in which the parts are assembled will be dictated by which connectors can fit through which holes within the connecting plates. It is easiest to connect up the thinnest tubes first.  
 
Find a clear flat piece of ground (or a picnic table) and assemble all of the parts horizontally to reduce strain on the connectors.
 
Find a clear flat piece of ground (or a picnic table) and assemble all of the parts horizontally to reduce strain on the connectors.
 +
 +
===Preparing a well===
 +
The Guelph Permeameter requires a smooth sided cylindrical hole containing water to function. This is prepared using a soil auger set.
 +
#Firstly the well is dug to the approximate depth using a digging auger with pointed cutting bits.
 +
**Digging will require some pressure, but should not require heavy pressure which may adversely affect the soil beneath. If a rock or other feature is encountered that requires significant effort, the hole should be abandoned and a new boring begun nearby.
 +
**The well should be at least 30 cm deep from the surface. It may be much deeper depending on the apparatus available.
 +
#The well should then be finished to more of a cylindrical shape using a sizing auger,
 +
#Just one or two passes of a brush may be used to reduce any ‘sealing’ or ‘smearing’ of the walls of the well.
  
 
==External links==
 
==External links==

Revision as of 20:38, 9 May 2019

Infiltration testing with a Guelph Permeameter at a site in Glen Williams, Ontario

Principle

A variety of field permeameters have been developed locally, and are readily available to purchase or to hire. They have relative benefits and limitations in their use, and as they are proprietary devices, they each have manufacturers specific recommendations for their use. Sampling strategies for their use is found on Design infiltration rate

Measurements

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Packing list

  • Permeameter
  • Auger kit
  • Water container (will water need transporting to the test site?)
  • Laptop with spreadsheet or field forms
  • Onsite repair kit:
    • Strong adhesive tape
    • Knife
    • Hose clamps
    • Screwdriver
    • Vacuum grease
  • Logistics:
    • Tarpaulin to kneel/work on
    • Seat?
    • Sunscreen and/or umbrella?
Permeameter.png

Permeameter assembly (Guelph permeameter)

There are three thin inner tubes (shown in dark red):

  • the central tube is the longest and sits within the reservoir assembly,
  • the bottommost tube has a washer/seal apparatus on the end which does not attach to the central tube,
  • the top tube is the shortest and has an open end where it does not attach to the central tube.

The reservoir assembly comprises two tubes of the same length:

  • the outer (shown in green) is unmarked,
  • and there is a mid-sized tube with graduations in millimeters,

There are two further mid-sized tubes (in orange):

  • the longer of these has a cup-shaped, filter-like ‘foot’ and should have a funnel shaped bushing threaded on (shown semi-transparent); this tube goes onto the base of the reservoir,
  • the shorter tube has graduations in millimeters and no other components attached; it slides onto the very top around the shortest thin tube.

At the top of the reservoir section there are three small but important components to note:

  • a short flexible hose to regulate air going into the reservoir; this should have a plastic ring associated to close it off,
  • a hole with a rubber plug; this is used to fill the reservoir with water (not shown),
  • a moveable ‘indicator’ on the inner tube; it is a small cylinder of plastic threaded onto the tube which come directly from the reservoir.

The order in which the parts are assembled will be dictated by which connectors can fit through which holes within the connecting plates. It is easiest to connect up the thinnest tubes first. Find a clear flat piece of ground (or a picnic table) and assemble all of the parts horizontally to reduce strain on the connectors.

Preparing a well

The Guelph Permeameter requires a smooth sided cylindrical hole containing water to function. This is prepared using a soil auger set.

  1. Firstly the well is dug to the approximate depth using a digging auger with pointed cutting bits.
    • Digging will require some pressure, but should not require heavy pressure which may adversely affect the soil beneath. If a rock or other feature is encountered that requires significant effort, the hole should be abandoned and a new boring begun nearby.
    • The well should be at least 30 cm deep from the surface. It may be much deeper depending on the apparatus available.
  1. The well should then be finished to more of a cylindrical shape using a sizing auger,
  2. Just one or two passes of a brush may be used to reduce any ‘sealing’ or ‘smearing’ of the walls of the well.

External links

In our effort to make this guide as functional as possible, we have decided to include proprietary systems and links to manufacturers websites.
Inclusion of such links does not constitute endorsement by the Sustainable Technologies Evaluation Program.
Lists are ordered alphabetically; link updates are welcomed using the form below.