Wiki source code of Irrigation System
Last modified by Aaron Bugaj on 2022/05/03 16:48
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| author | version | line-number | content |
|---|---|---|---|
| 1 | {{box cssClass="floatinginfobox" title="**Table of contents**"}}{{toc/}}{{/box}} | ||
| 2 | |||
| 3 | Each hill slope was designed with five (5) irrigation circuits. Each hill slope is fed via a supply line which can be charged using any of the pumps (valving restrictions apply) | ||
| 4 | |||
| 5 | = __Irrigation circuits__ = | ||
| 6 | |||
| 7 | Circuit A (MP2000) | ||
| 8 | - This circuit utilizes six (8) Hunter MP2000 heads providing approximately 0.32 cm/hr of rain | ||
| 9 | |||
| 10 | Circuit B (Intermediate) | ||
| 11 | - This circuit utilizes eight (6) Hunter MP2000 heads providing approximately 0.31 cm/hr of rain | ||
| 12 | |||
| 13 | Circuit C (MP3000) | ||
| 14 | - This circuit utilizes eight (8) Hunter MP3000 heads providing approximately 0.74 cm/hr of rain | ||
| 15 | |||
| 16 | Circuit D (Multi1) | ||
| 17 | - This circuit utilizes fourteen (14) Hunter MP2000 heads and fourteen (8) Hunter MP3000 heads providing approximately 1.37 cm/hr of rain | ||
| 18 | |||
| 19 | Circuit E (Multi2) | ||
| 20 | - This circuit utilizes fourteen (14) Hunter MP2000 heads and fourteen (8) Hunter MP3000 heads providing approximately 1.37 cm/hr of rain | ||
| 21 | |||
| 22 | ~*~*~* Please note ~*~** | ||
| 23 | Circuit D and E are designed to be identical and each is equivalent to the combination of A + B + C. | ||
| 24 | |||
| 25 | |||
| 26 | = __Irrigation Scenarios__ = | ||
| 27 | |||
| 28 | |A (MP2000)|B (Interm)|C (MP3000)|D (Multi1)|E (Multi2)|Rain Rate (cm/hr)|scenario # | ||
| 29 | ||||||0.00|0 | ||
| 30 | |X|||||0.31|1 | ||
| 31 | ||X||||0.32|2 | ||
| 32 | |X|X||||0.63|3 | ||
| 33 | |||X|||0.74|4 | ||
| 34 | |X||X|||1.05|5 | ||
| 35 | ||X|X|||1.06|6 | ||
| 36 | ||||X||1.37|7 | ||
| 37 | |X|||X||1.68|8 | ||
| 38 | ||X||X||1.69|9 | ||
| 39 | |X|X||X||2.00|10 | ||
| 40 | |||X|X||2.11|11 | ||
| 41 | |X||X|X||2.42|12 | ||
| 42 | ||X|X|X||2.43|13 | ||
| 43 | ||||X|X|2.74|14 | ||
| 44 | |X|||X|X|3.05|15 | ||
| 45 | ||X||X|X|3.06|16 | ||
| 46 | |X|X||X|X|3.37|17 | ||
| 47 | |||X|X|X|3.48|18 | ||
| 48 | |X||X|X|X|3.79|19 | ||
| 49 | ||X|X|X|X|3.80|20 | ||
| 50 | |X|X|X|X|X|4.11|21 | ||
| 51 | |||
| 52 | = __Irrigation Control__ = | ||
| 53 | |||
| 54 | Each of the five irrigation circuits is operated by a VALWORX electric ball valve. These valves can be opened and closed manually or by computer control. The device cRIO-LEO-Irrigation (located in the irrigation electrical control panel) is configured as a task scheduler which provides the ability to precisely automate complex valve action scenarios. More information regarding this topic can be found in the page [[Irrigation.IRRIGATION CONTROL]] | ||
| 55 | |||
| 56 | = __Water storage__ = | ||
| 57 | |||
| 58 | There are 7 tank in the east bay - each tank can hold approximately 8,037 Liters. | ||
| 59 | There are 4 tank in the west bay - each tank can hold approximately 9,690 liters. | ||
| 60 | The RO can produce approximately 75 liters per minute. | ||
| 61 | |||
| 62 | East bay storage tanks, pipes & valving shown in the image below: | ||
| 63 | |||
| 64 | [[image:LEO-East_Water-Tanks.png]] |