Characterization of the microtube emitters used in a novel micro-sprinkler
The microtube is a simple and cheap emitter that was widely used throughout the world in the early days of drip irrigation. Its length can be adjusted according to the pressure distribution along the lateral line and the discharge from the microtube can be adjusted by its length. This not only count...
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| Published in: | Irrigation science Vol. 27; no. 3; pp. 209 - 214 |
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| Format: | Journal Article |
| Language: | English |
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01-03-2009
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| Abstract | The microtube is a simple and cheap emitter that was widely used throughout the world in the early days of drip irrigation. Its length can be adjusted according to the pressure distribution along the lateral line and the discharge from the microtube can be adjusted by its length. This not only counters the pressure loss due to pipe friction but also makes it suitable for undulating and hilly conditions, where pressure in the lateral line varies considerably according to the differences in elevation. This is the major problem facing the designer, i.e., emitter flow changes as the acting pressure head changes. In this study, a novel micro-sprinkler system is proposed that uses microtube as the emitter and where the length of the microtube can be varied in response to pressure changes along the lateral to give uniformity of emitter discharges. The objective of this work is to develop and validate empirical and semi-theoretical equations for the emitter hydraulics. Laboratory testing of two microtube emitters of different diameter over a range of pressures and discharges was used in the development of the equations relating pressure and discharge, and pressure and length for these emitters. The equations proposed will be used in the design of the micro-sprinkler system, to determine the length of microtube required to give the nominal discharge for any given pressure. The semi-theoretical approach underlined the importance of accurate measurements of the microtube diameter and the uncertainty in the estimation of the friction factor for these tubes. |
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| AbstractList | The microtube is a simple and cheap emitter that was widely used throughout the world in the early days of drip irrigation. Its length can be adjusted according to the pressure distribution along the lateral line and the discharge from the microtube can be adjusted by its length. This not only counters the pressure loss due to pipe friction but also makes it suitable for undulating and hilly conditions, where pressure in the lateral line varies considerably according to the differences in elevation. This is the major problem facing the designer, i.e., emitter flow changes as the acting pressure head changes. In this study, a novel micro-sprinkler system is proposed that uses microtube as the emitter and where the length of the microtube can be varied in response to pressure changes along the lateral to give uniformity of emitter discharges. The objective of this work is to develop and validate empirical and semi-theoretical equations for the emitter hydraulics. Laboratory testing of two microtube emitters of different diameter over a range of pressures and discharges was used in the development of the equations relating pressure and discharge, and pressure and length for these emitters. The equations proposed will be used in the design of the micro-sprinkler system, to determine the length of microtube required to give the nominal discharge for any given pressure. The semi-theoretical approach underlined the importance of accurate measurements of the microtube diameter and the uncertainty in the estimation of the friction factor for these tubes. The microtube is a simple and cheap emitter that was widely used throughout the world in the early days of drip irrigation. Its length can be adjusted according to the pressure distribution along the lateral line and the discharge from the microtube can be adjusted by its length. This not only counters the pressure loss due to pipe friction but also makes it suitable for undulating and hilly conditions, where pressure in the lateral line varies considerably according to the differences in elevation. This is the major problem facing the designer, i.e., emitter flow changes as the acting pressure head changes. In this study, a novel micro-sprinkler system is proposed that uses microtube as the emitter and where the length of the microtube can be varied in response to pressure changes along the lateral to give uniformity of emitter discharges. The objective of this work is to develop and validate empirical and semi-theoretical equations for the emitter hydraulics. Laboratory testing of two microtube emitters of different diameter over a range of pressures and discharges was used in the development of the equations relating pressure and discharge, and pressure and length for these emitters. The equations proposed will be used in the design of the micro-sprinkler system, to determine the length of microtube required to give the nominal discharge for any given pressure. The semi-theoretical approach underlined the importance of accurate measurements of the microtube diameter and the uncertainty in the estimation of the friction factor for these tubes. (PUBLICATION ABSTRACT) |
| Author | Botrel, Tarlei Arriel Smith, Rod J de Almeida, Ceres Duarte Guedes Cabral |
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| CitedBy_id | crossref_primary_10_1016_j_aej_2021_10_057 crossref_primary_10_1016_j_agwat_2019_05_017 crossref_primary_10_1590_1807_1929_agriambi_v18n11p1095_1101 crossref_primary_10_1590_1807_1929_agriambi_v21n9p594_599 crossref_primary_10_1007_s00271_010_0242_4 crossref_primary_10_1590_1809_4430_Eng_Agric_v36n1p36_45_2016 crossref_primary_10_3390_w14203260 crossref_primary_10_1590_S1415_43662011000200015 crossref_primary_10_1002_ird_1763 crossref_primary_10_1590_S1415_43662012000200001 |
| Cites_doi | 10.1590/S1415-43662004000100003 10.1007/s00271-002-0058-y 10.1061/(ASCE)0733-9437(1995)121:5(313) 10.1590/1807-1929/agriambi.v1n1p17-20 10.13031/2013.36936 10.1061/(ASCE)0733-9429(1989)115:2(183) |
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| Keywords | Emitter Discharge Friction Factor Lateral Line Root Mean Square Error LDPE |
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| References | KellerJKarmeliDTrickle irrigation design parametersTransaction ASAE1974174678684 BagarelloVFerroVProvenzanoGPumoDExperimental study on flow-resistance law for small-diameter plastic pipesJ Irrig Drain Eng ASCE1995121531331610.1061/(ASCE)0733-9437(1995)121:5(313) BhatnagarPRSrivastavaRCGravity-fed drip irrigation system for hilly terraces of the northwest HimalayasIrrig Sci2003214151157 Almeida CDGC, Botrel TA (2008) Determination diameter of the microtubes. CIGR—International Conference of Agricultural Engineering, CD-Rom CardosoGGGFrizzoneJARezendeRFator de atrito em tubos de polietileno de pequenos diâmetrosActa Scientiarum Agronomy2008303299305 Ishaq AM, Ibrahim MA (1995) The design of trickle irrigation systems with microtubes as emitters. In: Proceedings of 5th international congress of microirrigation, ASAE, Orlando, FL, pp 708–716 MatosJARagosoCRACaracterização da performace hidráulica de dois emissores tipo microaspersorRev Bras Eng Agric Amb1997111720 SouzaRORMBotrelTAModelagem para o dimensionamento de microtubos em irrigação localizadaRev Bras Eng Agric Amb2004811622 von BernuthRDWilsonTFriction factors for small diameter plastic pipesJ Hydraul Eng ASCE1989115218319210.1061/(ASCE)0733-9429(1989)115:2(183) ChadwickAMorfettJBorthwickMHydraulics in civil and environmental engineering2006LondonSpon644 KhatriKCWuIGitlinHMPhillipsAHydraulics of microtube emittersJ Irrig Drain Div ASCE1979105IR2167173 Watters GZ, Keller J (1978) Trickle irrigation tubing hydraulics. ASAE Technical paper 78–2015, Logan, UT, USA A Chadwick (135_CR5) 2006 135_CR6 135_CR4 J Keller (135_CR7) 1974; 17 RD Bernuth von (135_CR11) 1989; 115 135_CR1 JA Matos (135_CR9) 1997; 1 RORM Souza (135_CR10) 2004; 8 V Bagarello (135_CR2) 1995; 121 PR Bhatnagar (135_CR3) 2003; 21 135_CR12 KC Khatri (135_CR8) 1979; 105 |
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| Snippet | The microtube is a simple and cheap emitter that was widely used throughout the world in the early days of drip irrigation. Its length can be adjusted... |
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| SubjectTerms | Agriculture Aquatic Pollution Biomedical and Life Sciences Climate Change Drip irrigation Environment Friction Hydraulics Irrigation Laboratory tests Life Sciences Original Paper Pressure distribution Pressure head Studies Sustainable Development Waste Water Technology Water Industry/Water Technologies Water Management Water Pollution Control |
| Title | Characterization of the microtube emitters used in a novel micro-sprinkler |
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