Optimal design of drip irrigation submains: presure-compensating emitters

Optimal design of drip irrigation submains: presure-compensating emitters

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For a drip irrigation system to be successful, it must be well designed, properly installed, managed and maintained. In plots with steep slopes and irregular topography that have little land leveling capacity and/or that require very efficient agricultural machinery, drip irrigation designs general...

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Main Authors: Carlos E. Schilardi Sícoli, Ricardo Aliod, Fernando Zorilla, José Antonio Morábito
Format: Article
Language:English
Published: Facultad de Ciencias Agrarias. Universidad Nacional de Cuyo 2019-12-01
Series:Revista de la Facultad de Ciencias Agrarias
Subjects:
drip irrigation
design
submain
pressure-compensating emitters
Online Access:http://200.12.138.7/ojs3/index.php/RFCA/article/view/2618
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spelling doaj-b1070040753c4adaa484cf7eb69315ae2021-04-20T15:51:49ZengFacultad de Ciencias Agrarias. Universidad Nacional de CuyoRevista de la Facultad de Ciencias Agrarias0370-46611853-86652019-12-01512Optimal design of drip irrigation submains: presure-compensating emittersCarlos E. Schilardi Sícoli0Ricardo Aliod1Fernando Zorilla2José Antonio Morábito3Universidad Nacional de Cuyo. Facultad de Ciencias Agrarias. Almirante Brown 500. Luján. C. P. M5528AHB. Mendoza. Argentina. Universidad de Zaragoza. Escuela Politécnica Superior de Huesca (EPSH). Carreterra de Cuarte S/N. C. P. 22071. Huesca. España. Universidad de Zaragoza. Escuela Politécnica Superior de Huesca (EPSH). Carreterra de Cuarte S/N. C. P. 22071. Huesca. España. Universidad Nacional de Cuyo. Facultad de Ciencias Agrarias. Almirante Brown 500. Luján. C. P. M5528AHB. Mendoza. Argentina. For a drip irrigation system to be successful, it must be well designed, properly installed, managed and maintained. In plots with steep slopes and irregular topography that have little land leveling capacity and/or that require very efficient agricultural machinery, drip irrigation designs generally use pressure-compensating emitters. This work develops a methodology and implements it in a computer tool that makes it possible to optimally determine in drip-irrigated plots with pressure-compensating emitters: a) telescopic sizing of the submain manifold pipe, b) supply valve pressure and c) subunit’s intake valve location, when considering all hydraulic-economic aspects in the design phase. Techniques of optimal sizing of pipe networks and simulation of hydraulic networks under pressure are linked to economic analyzes of total annualized costs. Finally, the practical usefulness of the proposed methodology is shown with three examples of complex real cases where pipe design costs are reduced by 16-34% and energy costs by 37-51%. http://200.12.138.7/ojs3/index.php/RFCA/article/view/2618drip irrigationdesignsubmainpressure-compensating emitters
collection DOAJ
language English
format Article
sources DOAJ
author Carlos E. Schilardi Sícoli
Ricardo Aliod
Fernando Zorilla
José Antonio Morábito
spellingShingle Carlos E. Schilardi Sícoli
Ricardo Aliod
Fernando Zorilla
José Antonio Morábito
Optimal design of drip irrigation submains: presure-compensating emitters
Revista de la Facultad de Ciencias Agrarias
drip irrigation
design
submain
pressure-compensating emitters
author_facet Carlos E. Schilardi Sícoli
Ricardo Aliod
Fernando Zorilla
José Antonio Morábito
author_sort Carlos E. Schilardi Sícoli
title Optimal design of drip irrigation submains: presure-compensating emitters
title_short Optimal design of drip irrigation submains: presure-compensating emitters
title_full Optimal design of drip irrigation submains: presure-compensating emitters
title_fullStr Optimal design of drip irrigation submains: presure-compensating emitters
title_full_unstemmed Optimal design of drip irrigation submains: presure-compensating emitters
title_sort optimal design of drip irrigation submains: presure-compensating emitters
publisher Facultad de Ciencias Agrarias. Universidad Nacional de Cuyo
series Revista de la Facultad de Ciencias Agrarias
issn 0370-4661
1853-8665
publishDate 2019-12-01
description For a drip irrigation system to be successful, it must be well designed, properly installed, managed and maintained. In plots with steep slopes and irregular topography that have little land leveling capacity and/or that require very efficient agricultural machinery, drip irrigation designs generally use pressure-compensating emitters. This work develops a methodology and implements it in a computer tool that makes it possible to optimally determine in drip-irrigated plots with pressure-compensating emitters: a) telescopic sizing of the submain manifold pipe, b) supply valve pressure and c) subunit’s intake valve location, when considering all hydraulic-economic aspects in the design phase. Techniques of optimal sizing of pipe networks and simulation of hydraulic networks under pressure are linked to economic analyzes of total annualized costs. Finally, the practical usefulness of the proposed methodology is shown with three examples of complex real cases where pipe design costs are reduced by 16-34% and energy costs by 37-51%.
topic drip irrigation
design
submain
pressure-compensating emitters
url http://200.12.138.7/ojs3/index.php/RFCA/article/view/2618
work_keys_str_mv AT carloseschilardisacoli optimaldesignofdripirrigationsubmainspresurecompensatingemitters
AT ricardoaliod optimaldesignofdripirrigationsubmainspresurecompensatingemitters
AT fernandozorilla optimaldesignofdripirrigationsubmainspresurecompensatingemitters
AT josaantoniomorabito optimaldesignofdripirrigationsubmainspresurecompensatingemitters
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