Theory of Operation and Hints for Testing

For those who wish to test the operation of the TORRENT ™ Rain Gauge, several points should be considered. The first and most important is the rate at which water is introduced into the gauge – water must not be added too fast. There is a tendency to want to pour some known volume of water into the funnel of the gauge, expecting a certain rainfall indication on the weather station in response. The problem with this method is that in most cases, water is poured into the funnel faster than the rain gauge's ability to form and count discrete drops of uniform volume, resulting in incorrect rainfall indication. Remember, real rainfall introduces very small volumes of water, very slowly, into the rain gauge. Watching rain fall into the rain gauge, in all but deluge conditions, is kind of like watching grass grow - it happens, but usually too slowly for us to observe. Doubters should try drawing a 3" circle on the inside of their automobile windshield, and observing the amount of rain that falls inside the circle (with the car parked, not moving). When water poured from a spoon or cup is used to test the rain gauge, it is likely to be at a rate equivalent to 12" of rain per hour or more - even if only for a few seconds - and can run through the gauge too quickly for accurate measurement.

NOTE: The actual volume of water measured (or collected) by a rain gauge, for a given amount of rainfall, depends upon the area (or diameter) of its top opening. Rainfall, as normally expressed in "inches", describes the depth of rainfall on the surface of the ground - it's not a measure of the volume of water in a rain gauge. The formula for converting volume of water in a rain gauge to depth of rainfall is:

Rainfall (inches) = .50 x Volume of Rainwater Collected (ml) ¸ [Diameter of Opening (cm)] 2

The larger the diameter of the opening of the rain gauge, the more rainwater that will be collected from the same rainfall. For example, two glass jars (one 2" diameter and one 3" diameter) are placed in the same thunderstorm in which one inch of rain falls. After the storm, both jars have an inch of water depth contained in them, but the 3" diameter jar contains over twice the water volume of the 2" diameter jar. The importance of this concept to rain gauge testing is that we cannot collect an inch of rainfall in a jar of a different top diameter than the TORRENT ™ Rain Gauge, and then pour that water into the TORRENT ™ Rain Gauge and expect it to respond with the same rainfall measurement of one inch.

If a laboratory test simulating rainfall in the TORRENT ™ Rain Gauge is desired, we recommend the following apparatus for introducing water into the rain gauge: a 10 ml Luer-Lock Syringe (P/N 7510A653, McMaster-Carr Supply Co., Atlanta, GA 30374, (404) 346-7000) with 27-Gauge Tip (P/N 75165A688, McMaster-Carr Supply Co.), also available from Ventorum Technologies. Add a small volume of water to the TORRENT ™ Rain Gauge until you see a drop fall from the bottom of the gauge (this "primes" the drop-forming tube inside the gauge). Fill the syringe with 10 ml water. To begin measurement, feed water from the syringe slowly and steadily into the gauge (direct the water stream down the side of the funnel, not onto the screen) - it should take about 30-60 seconds to empty the syringe completely. The TORRENT ™ Rain Gauge should indicate about .070"-080" for each 10 ml of water added from the syringe.

If you have any questions, or encounter any difficulties with a Torrent Rain Gauge you have purchased from us, please do not hesitate to contact us.

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