Energy consumption of the mobile irrigation systems
Apstrakt
In this paper results of different irrigation systems, regarding to energy consumption and energy ratio, are presented. Energy consumption in irrigation and energy output through yield were analyzes for three different irrigation systems (self-propelled rain wing, self-propelled rain gun and linear system) in order to establish the optimal exploitation and energy parameters of the given irrigation systems. Results show that, concerning the depth of irrigation, good results can be obtained with the lower depths (0-30 cm). Concerning the irrigation application rate it was concluded that with the lower application rate and higher number of irrigation cycles better water usage can be obtained. Energy consumption of the mobile irrigation systems shows that the optimal relation of the energy output (yield energy) and energy input through the irrigation process in case of mobile rain wing is the lowest (12.29) and that with mobile linear device highest (288.19). Energy consumption in tillage ...and sowing in the system of conventional tillage was 2519.31 MJ/ha. Energy of irrigation varied depending on type of irrigation system. With the mobile linear system energy consumption was 814.35 MJ/ha, with mobile irrigation wing 1338.54 MJ/ha and with the self-propelled rain gun 8041.17 MJ/ha.
Ključne reči:
energy / irrigation / yield / mobile irrigation systemsIzvor:
Actual Tasks on Agricultural Engineering, 2013, 41, 181-188Izdavač:
- Agronomski fakultet Sveucilista u Zagrebu, 10000 Zagreb
Institucija/grupa
Poljoprivredni fakultetTY - CONF AU - Miodragović, Rajko AU - Mileusnić, Zoran AU - Dimitrijević, Aleksandra PY - 2013 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/3128 AB - In this paper results of different irrigation systems, regarding to energy consumption and energy ratio, are presented. Energy consumption in irrigation and energy output through yield were analyzes for three different irrigation systems (self-propelled rain wing, self-propelled rain gun and linear system) in order to establish the optimal exploitation and energy parameters of the given irrigation systems. Results show that, concerning the depth of irrigation, good results can be obtained with the lower depths (0-30 cm). Concerning the irrigation application rate it was concluded that with the lower application rate and higher number of irrigation cycles better water usage can be obtained. Energy consumption of the mobile irrigation systems shows that the optimal relation of the energy output (yield energy) and energy input through the irrigation process in case of mobile rain wing is the lowest (12.29) and that with mobile linear device highest (288.19). Energy consumption in tillage and sowing in the system of conventional tillage was 2519.31 MJ/ha. Energy of irrigation varied depending on type of irrigation system. With the mobile linear system energy consumption was 814.35 MJ/ha, with mobile irrigation wing 1338.54 MJ/ha and with the self-propelled rain gun 8041.17 MJ/ha. PB - Agronomski fakultet Sveucilista u Zagrebu, 10000 Zagreb C3 - Actual Tasks on Agricultural Engineering T1 - Energy consumption of the mobile irrigation systems EP - 188 SP - 181 VL - 41 UR - https://hdl.handle.net/21.15107/rcub_agrospace_3128 ER -
@conference{ author = "Miodragović, Rajko and Mileusnić, Zoran and Dimitrijević, Aleksandra", year = "2013", abstract = "In this paper results of different irrigation systems, regarding to energy consumption and energy ratio, are presented. Energy consumption in irrigation and energy output through yield were analyzes for three different irrigation systems (self-propelled rain wing, self-propelled rain gun and linear system) in order to establish the optimal exploitation and energy parameters of the given irrigation systems. Results show that, concerning the depth of irrigation, good results can be obtained with the lower depths (0-30 cm). Concerning the irrigation application rate it was concluded that with the lower application rate and higher number of irrigation cycles better water usage can be obtained. Energy consumption of the mobile irrigation systems shows that the optimal relation of the energy output (yield energy) and energy input through the irrigation process in case of mobile rain wing is the lowest (12.29) and that with mobile linear device highest (288.19). Energy consumption in tillage and sowing in the system of conventional tillage was 2519.31 MJ/ha. Energy of irrigation varied depending on type of irrigation system. With the mobile linear system energy consumption was 814.35 MJ/ha, with mobile irrigation wing 1338.54 MJ/ha and with the self-propelled rain gun 8041.17 MJ/ha.", publisher = "Agronomski fakultet Sveucilista u Zagrebu, 10000 Zagreb", journal = "Actual Tasks on Agricultural Engineering", title = "Energy consumption of the mobile irrigation systems", pages = "188-181", volume = "41", url = "https://hdl.handle.net/21.15107/rcub_agrospace_3128" }
Miodragović, R., Mileusnić, Z.,& Dimitrijević, A.. (2013). Energy consumption of the mobile irrigation systems. in Actual Tasks on Agricultural Engineering Agronomski fakultet Sveucilista u Zagrebu, 10000 Zagreb., 41, 181-188. https://hdl.handle.net/21.15107/rcub_agrospace_3128
Miodragović R, Mileusnić Z, Dimitrijević A. Energy consumption of the mobile irrigation systems. in Actual Tasks on Agricultural Engineering. 2013;41:181-188. https://hdl.handle.net/21.15107/rcub_agrospace_3128 .
Miodragović, Rajko, Mileusnić, Zoran, Dimitrijević, Aleksandra, "Energy consumption of the mobile irrigation systems" in Actual Tasks on Agricultural Engineering, 41 (2013):181-188, https://hdl.handle.net/21.15107/rcub_agrospace_3128 .