Using the HAM Weather Irrigation Module

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WeatherBug Irrigation Module Settings
WeatherBug Irrigation Module Settings
WeatherBug Irrigation Module Status
WeatherBug Irrigation Module Status

The Basic Idea of this Module

This module is designed to calculate the amount of water that is lost from the soil and plants and replace it with a close approximation of what was lost. Today in a world of "Green is good" every consumable resource such as water can be better conserved with such a tool.

The module takes the local WeatherBug data, the user settings, and calculates each day the average water that has been lost. The user then can have programs that respond to these calculations and apply the appropriate amount of water to replace that loss. When those programs complete they trigger a command that lets the module know that the water has been applied and can be subtracted from the module's tally. Each day this is done completing the cycle of tracking the data and applying the water. During cooler times of the year the watering days frequency will slow down, and during the warmer parts of the year the watering frequency will ramp up to daily.

Irrigation Module's Settings

There are several variables that are adjustable by the user.

  • Irrigation Region - adjusts for the differing ET in inland vs coastal areas.
    • coastal region, interior plains region
  • Absorption Factor/Soil Type - adjusts for the relative efficiency of soil absorption.
    • Sand 100%, Loam sand 83%, Sandy loam 67%, Loam 58%, Clay loam 33%, Silty clay 25%, Clay 17%
  • Water Applied per Irrigation Cycle - amount of water the user's irrigation program applies to the soil during each run.
  • Allowable Depletion - how much water is allowed to leave (be depleted from) the soil before the next irrigation cycle.

Irrigation Module's Status Output

These variables are calculated from the WeatherBug data. They can be used in the program module for customizing the irrigation system.

  • Evapotranspiration - approximation of the amount of water leaving the soil via a combination of evaporation and transpiration.
  • Irrigation Requirement - amount of water to be applied based on the accumulation of previous day(s) water deficits.
  • Yesterday's Water Deficit - total amount of water that has evapotranspired during a twenty four hour window from the day before.

Irrigation Module's Commands

These are commands that can be used in ISY programs.

  • Irrigation - Cycle Complete - triggers the module's calculations for after water has been applied.
  • Irrigation - Reset Variables - triggers a reset of the module's Irrigation Requirement variable.

Program Example: Irrigate If Needed

The IF condition decides whether to water by comparing the Irrigation Requirement balance to a constant. The user is responsible for setting this constant equal to Water Applied per Irrigation Cycle, and updating it if they change the value of water that they apply per irrigation in their own programs.

        Time is 11:00:00PM
    And Module 'Climate' Irrigation Requirement >= 0.50

        Set 'Front Yard' On
        Wait  10 minutes
        Set 'Back Yard' On
        Wait  5 minutes
        Set 'Back Yard' Off
        Irrigation - Cycle Complete

Please note: If you are using an EZFlora device you only have to turn off the last station. When you turn on the next station the EZFlora first turns off the current station then turns on the next one. If you use an EZio device you will have to turn off each station before turning on the next one.

Calculating the Station Runtime

In order to replace the water that is lost from the soil your station runtimes will need to be properly calculated. Each type of emitter/sprinkler has a different amount of water that is being delivered per minute/hour. The calculator linked below can be used to calculate the appropriate runtime for each station.

Please note: this calculator has a "System Efficiency" input variable which is similar to what we are calling Absorption Factor/Soil Type in the ISY module. Start with "System Efficiency" at 100% and if after several runs you notice that a station is not applying enough water you can adjust the "System Efficiency" to compensate with longer station runtimes. This allows the user to differentiate one station from another based on how well each station performs, for example the front yard dripper station may have better soil or is freshly mulched and holds water better than the back yard dripper station. The best performing station in your system would be your 100% benchmark station then the other stations that perform less than the benchmark station would have the "System Efficiency" value adjusted to a lower percentage.

Initialize the Module

After you have installed the Irrigation Module the Irrigation Requirement variable will most likely display zero. You will have to trigger a reset of the module variables to get things going correctly. Below is a walk-thru of the steps to perform this reset. Please note: If its the rainy season it may be difficult to tell if Irrigation Requirement is having an issue, so its recommended this be performed anyways just after the first install of the module.

  1. In the ISY Admin Console go to the Programs tab.
  2. Create the temporary program shown in the example below.
  3. Right click on the program in the folder tree and select "Run Then" to reset the module.
  4. Go back to the Weatherbug tab.
  5. Check again Irrigation Requirement and you should now see a number instead of a zero.
  6. Once you have done this initialization process you can delete the temporary program.
   - No Conditions - (To add one, press 'Schedule' or 'Condition')

        Irrigation - Reset Variables

Forum thread: Proposed Evapotranspiration Algorithm in 3.1.4 Beta

ISY-26 INSTEON / ISY-99i Series INSTEON : How-To Guide