SU1136768A1 - Irrigation system - Google Patents

Abstract

The IRRIGATION SYSTEM, which includes slope estuaries, the Ruses of which are formed by water retaining shafts with water flows and a distribution network, and hydraulic structures, characterized in that the system has parallel channels for supplying and discharging seawater, in order to provide regulated irrigation. connected to the distribution network by means of hydraulic structures, with the water retaining shafts arranged parallel to the horizontal of the area. w with s 9d with 00

Description

The invention relates to agricultural land reclamation, in particular, to the design, construction and operation of irrigation and irrigation systems and the disposal of wastewater of various origins in gently sloping seashores for irrigating various agricultural land, especially in dry and dry years. Water distribution systems for irrigated areas are known using various earth dams and mobile pumping stations L. However, in this system there is no possibility of irrigation in the best agrotechnical terms and the crops die in precarious years. In addition, mobile pumping stations are not protected from storms, as when the surge is flooded. It is necessary to deliver fuel, which requires relatively high labor and cost. The closest to the proposed one is the irrigation system, which includes slope estuaries, the Ruses of which are formed by earth water retaining shafts with water passes and a distribution network, and hydraulic engineering structures zl. The disadvantage of this irrigation system is the inability to carry out irrigation within the recommended time frame, reduction or complete loss crops of agricultural crops in the absence of runoff and spontaneous flooding of the area by sea water during the growing season, as well as limited distribution channel functions. Slope estuaries, as a rule, are only melted once a year during the period of spring snowfall. The purpose of the invention is to provide controlled irrigation. The aim is to ensure that the irrigation system is provided with channels parallel to each other for supplying and discharging sea water connected to the distribution network by means of hydraulic structures, while the water retaining shafts are parallel to the horizontal of the ground. The drawing shows the proposed irrigation system. The irrigation system consists of a ring embankment 1 embankment, a discharge line 2, a distribution network 3, bounded by dams 4, with hydraulic structures 5, several estuaries, separated by water retaining shafts 6, water bypass from the upper rune to the bottom is produced by water flow 7, The outlets 8 and 9. The network 3 has gentle slopes and performs two functions: it sends seawater up into the rivers of the estuary and drains water at a decrease in sea level. Water-holding shafts 6 are parallel to the horizontal of the area 10. Water-holding shafts 6 and the embankment dam 1 are provided with outlets 8 and 9. The water-holding shafts 6 and embankment dams 1 have gentle slopes with a coefficient of 1: 5 laying, with the aim of perennial grasses, moving by machines, ensuring stability and durability in conditions of periodic flooding. The sodding of the gentle slopes of all the dams A and the water-holding zamilny shafts 6 ensures their squaring against erosion and a high land use factor. from the side of the sea dike embankment has a biological attachment of five types of trees and shrubs (willow, sucker, etc.). Under the influence of sufficiently long winds of the corresponding directions, the sea level increases, and water flows into the distribution network 3, Depending on The sea level rises upwards against the slope of the terrain to the first row of structures 5 (against the fourth river), the second row or higher, depending on the number of the rivers of the estuary. If sea water approaches structures 5 of the second river, downstream structures 5, of the first row, are closed. First, the upper Rus of all sections of the estuary are filled with sea water. After they are flooded, the water automatically overflows through the lateral water outlets 7 into the lower ranks. . The volume of water required for moistening the area of all Rus, and the width of each Rus of the estuary are calculated by a known method. Depending on the duration and height of the water rise during pagiox, the following moistening options are possible: the entire mass is flooded with sea water, the waste water is diverted outside the irrigated area , the lower part of the massif is moistened with seawater, and the upper part - with discharged waters, with H-sufficient water level in the sea, at the required time, the entire rain-covered area is watered with discharged waters at hydrotechnical, constructions. After the grass has reached the required height, the agricultural crops in the estuaries are mowed and taken to larger open areas. During the harvesting of agricultural crops, all structures 4 are closed, 1,684 marine and waste water in the estuaries are not allowed. After the harvesting of agricultural crops is completed, the floods of the estuaries are flooded in the same way for the second, then the third mowing. “The proposed method allows irrigation of natural and hay meadows, agricultural crops at optimal times, which increases their productivity, and allows instead of one nor two and three grass mows of sorghum, Sudan grass, sorghum-Sudan hybrids for one vegetative period.

Claims (1)

IRRIGATION SYSTEM, including sloping estuaries, the tiers of which are formed by water-retaining shafts with waterways and a distribution network, and hydraulic structures, characterized in that, in order to provide adjustable irrigation, the system is equipped with parallel channels for supplying and discharging sea water connected to the distribution network through hydraulic structures, while water-retaining shafts are located parallel to the horizontal terrain. SU. ™ '1136768