Open Accessresult of the influence for center pivot irrigation machine operations on rain intensity
Author(s) -
D Lkhagvasuren,
Nuuts Yadamsuren,
Otgonkhuyag Balgan,
Byambadorj Chagnaadorj
Publication year - 2021
Publication title -
šinžlèh uhaany akademijn mèdèè/proceedings of the mongolian academy of sciences
Language(s) - English
Resource type - Journals
eISSN - 2312-2994
pISSN - 2310-4716
DOI - 10.5564/pmas.v61i03.1823
Subject(s) - nozzle , intensity (physics) , pressure regulator , volumetric flow rate , maximum flow problem , distribution uniformity , irrigation , flow (mathematics) , water flow , environmental science , center pivot irrigation , hydrology (agriculture) , mechanical engineering , mathematics , engineering , mechanics , materials science , geotechnical engineering , environmental engineering , physics , optics , geometry , composite material , mathematical optimization , ecology , biology
The impact of two parameters - the pressure regulator X1 at the nozzle and the speed of the machine X2 for the amount of water flow through the sprinkler (Y, mm) experiment were determined by 8 mm diameter nozzles. The experiment was carried out in the laboratory of “Design of Irrigation and Equipment” used by “Sprinkler’s uniformity distribution measuring equipment” at the School of Engineering and Technology of MULS. In order to determine the rain intensity of low pressure sprinkler nozzle, mathematical statistical methods was used and it was found that the maximum amount of water supplied by the sprinkler nozzle is 1.727 mm/min with a maximum pressure of 30 PSI and a minimum speed is 1 m / min with a minimum flow rate of 0.313 mm/min. At a pressure regulator value of 20 PSI, the speed was a maximum of 3 m/min.