Desain Pintu Air Berbantu Komputer Untuk Saluran Irigasi Tersier di Daerah Irigasi Cikarawang Bogor
Computer-Aided Design Water Gate for Tertiary Irrigation Channels in Bogor-Cikarawang Irigation Area
Abstract
Irrigation water gate was one of the supporting components of agricultural activities, especially the management of rice fields, because it was utilized in the management of water flow. The implementation of water gate has a complex and interdependent set of tasks. So that was the problem which can made undesired effects. So that, the planning can be shorted by computer design . Besides, the changes in a design could be overcome quickly and precisely. The purpose of this research is to the effective rainfall, evapotranspiration, discharge of irrigation water needs in the Cikarawang irrigation area, produce a design of computer-aided water gate, and know RAB for the construction of the water gate. The study was conducted from April to July 2020. The place to do the research was Cikarawang Village, Bogor Regency, West Java. The results of the study were the design of water gate by using data plotting with computer-aided script files (SCR). The effective rainfall of 1806.3 mm, the highest evapotranspiration of 5.5 mm/day and the lowest evapotranspiration of plants at 4 mm/day, the highest irrigation water demand was 2.18 lt/dt/ha, The dimensions of 0.5 x 0.75 x 0.012 m, and water gate opening 0.27 m. These water gate openings were used when the plant's water requirements are highest. The cost of making water gate made from fiberglass is Rp. 838.000,-while for steel costs Rp. 3.500.000,-.
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References
Apriyanto H. 2015. Rancangan bangun pintu air otomatis menggunakan water level float switch berbasis mikrokontroler. Jurnal SISFOKOM. 4 (1) : 22-27.
Folkes E L, Edwin P H, Kusa B N. 2017. Pengembangan pintu air irigasi pintar berbasis arduino untuk daerah Irigasi Manikin. Jurnal Rekayasa Elektrikal. 13(3) : 139-144.
[KemenPU] Kementrian Pekerjaan Umum. 2013. Kriteria Perencanaan Bagian Perencanaan Jaringan Irigasi KP-01. Jakarta (ID): Direktorat Jendral Sumber Daya Air Direktorat Irigasi dan Rawa.
Smith WF, Jayad. 2006. Foundations of Materials Science and Engineering (4th ed). New York (NY) : McGraw-Hill.
Swamee P K. 1992. Sluice-Gate Discharge Equation. Journal of Irrigation and Drainage Engineering. 118(1) : 56-60.
Taolin RICO. 2014. Pendugaan evapotranspirasi padi sawah menggunakan Metode Nisbah Bowen (studi kasus di Kabupaten Indramayu). [Tesis]. Bogor (ID) : Institut Pertanian Bogor.
Tusi A. 2010. Rancangan bangun otomatisasi irigasi (desain pintu air dan simulasi system kendali level muka air sawah). [Tesis]. Bogor (ID) : Institut Pertanian Bogor.
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