A presentation on border irrigation system by Mostafijur Rahman
- 1. A presentation on Border Irrigation System Prepared by Mostafijur Rahman ID: 1902050203 Reg no: 2933
- 2. Introduction • Border irrigation is an old irrigation system used in the allover of the Bangladesh to irrigate crops like wheat, other small grains, and sometimes row crops. The border idea is to flush a large volume of water over a flat surface in a short period. • Depth of water flow is shallow and uniform down the bordered area. It is a system where a large volume of water is put in a defined border or bay at the top of the field and guided by the borders down the slope in a uniform wetting pattern to the end of the field.
- 3. When to use • Border irrigation is generally best suited to the larger mechanized farms as it is designed to produce long uninterrupted field lengths for ease of machine operations. • Heavy, clay soils can be difficult to irrigate with border irrigation because of the time needed to infiltrate sufficient water into the soil. Basin irrigation is preferable in such circumstances. • Border slopes should be uniform, with a minimum slope of 0.05% to provide adequate drainage and a maximum slope of 2% to limit problems of soil erosion.
- 4. Types 1. Straight type 2. Contour type
- 5. Straight Figure: Straight Border Irrigation System
- 6. Contour Figure: Contour Border Irrigation System
- 7. Standard Specification • The rule of thumb for border design, or at least a place to start on a field, is 5 gallons per minute (gpm) per foot of width for a 1,320-foot run length and 10 gpm per foot of width for a 2,640-foot run length. These flow rates give approximately a 12-hour set time, depending on field width, soil type, well yield, starting soil moisture deficit, and field roughness. Good field records where borders are installed can help "fine tune" the border widths in future years. • Design your border irrigation system for convenience (12- or 24-hour sets) to conserve the most water and labor during the irrigation season. This also benefits the crop by not allowing long, slow irrigation sets that often are counter productive to an irrigation response.
- 8. Standard Specification • Sometimes 12-hour sets are not the most efficient for fitting an even number of borders into a field. If it is more convenient, or it fits the field better, use 24-hour sets. Irrigation times longer than 24 hours are not recommended; however, research shows 48 hours to be the maximum set time for flood irrigation of soybeans. For a starting point, design 24-hour sets at half the flow rate per unit width indicated.
- 9. Standard Specification The equation for designing borders in its simplest form: Qu = 0.000064*(L*S^0.5)/n Where Qu = Flow rate per unit foot in cubic feet per second. Qu multiplied by 450 will give the flow rate per unit foot in gallons per minute per foot of width. L = Length of the field in feet. S = Slope of the field in feet per foot. n = Roughness coefficient between 0.15 and 0.25, with 0.25 being rougher. Qu × 450 = gpm /foot
- 10. Special sides • Rat hole
- 11. Advantages • The border system has several advantages over conventional flood irrigation practices used on beans, especially beans following rice. • One of the biggest advantages is that you can irrigate beans or other crops much earlier without the fear of submergence. • It takes less labor to install borders than it does a conventional flood irrigation system.
- 12. Advantages • Drainage is not blocked in the field due to cross levees or from levees that are butted at the bottom of the field, since the border levees are not constructed completely to the low end of the field. • The borders do not have to be plowed out after an irrigation; they can be taken out after the last irrigation but preferably after harvest with regular field tillage. • Row direction is not a factor in how well the borders work, so rows can run with the slope or across the slope and not impede the water movement or uniformity of water distribution.
- 13. Limitation • The water distribution system must be set up across the top of the field instead of one inlet point as is done with most flood irrigation systems. It does not work as well with a field that has side slopes (contour levees) because the borders must be narrower, and the border levees need to be taller to contain the water on the low side of the border. • Distribution is not as good on fields with side slope because of the tendency for water to stack up on the low side of the irrigated bay. Irrigation set times can vary, depending on soil type, stage of growth of the plant, and soil moisture levels.
- 14. Conclusion • Border irrigation is suited to all crops that are not damaged by inundation for short periods. It can be used with almost any crop if site conditions are such that the needed degree of water control can be obtained. • It can be used on nearly all irrigable soils but is best suited to soils whose intake rates are neither extremely low nor extremely high.
- 15. Thank You!