2017
DOI: 10.1002/ird.2118
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Simulation of Irrigation Uniformity and Optimization of Irrigation Technical Parameters Based on the SIRMOD Model under Alternate Furrow Irrigation

Abstract: To evaluate the irrigation distribution uniformity and optimize the suitable combination of irrigation technical parameters for alternate furrow irrigation (AFI) and conventional furrow irrigation (CFI), field experiments on maize were conducted during 2010 and 2012 at the Shiyanghe Experimental Station in the arid area of north‐west China. A surface irrigation simulation model (SIRMOD) was used to optimize the combination of irrigation technical parameters such as field slope, furrow length and inflow rate. F… Show more

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Cited by 23 publications
(12 citation statements)
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“…Approximately 90% of irrigated crops in the world are irrigated by surface irrigation, including basin, border and furrow irrigation methods (Bristow et al, 2020). Furrow irrigation is one of the main irrigation methods due to its low capital investment and simplicity of design (Bristow et al, 2020;Moravejalahkami et al, 2009;Walker & Skogerboe, 1987), and it is the best surface irrigation method because it allows suitable aeration in the root zone (Wu et al, 2017). However, furrow irrigation is less effective than pressurized systems such as drip irrigation in delivering the required amounts of water to the root zone of the crop.…”
Section: Introductionmentioning
confidence: 99%
“…Approximately 90% of irrigated crops in the world are irrigated by surface irrigation, including basin, border and furrow irrigation methods (Bristow et al, 2020). Furrow irrigation is one of the main irrigation methods due to its low capital investment and simplicity of design (Bristow et al, 2020;Moravejalahkami et al, 2009;Walker & Skogerboe, 1987), and it is the best surface irrigation method because it allows suitable aeration in the root zone (Wu et al, 2017). However, furrow irrigation is less effective than pressurized systems such as drip irrigation in delivering the required amounts of water to the root zone of the crop.…”
Section: Introductionmentioning
confidence: 99%
“…These practices are known to produce a greater chance of waterlogging, tail water losses, salinity hazards, high yield loss and lower economical profit (Walker, 2003). There is a need for basic technical parameters and decision variables such as flow rate, furrow length and cut off time that easily applied to furrow irrigation system design in order to improve for local condition (Di Wu et al, 2017). In furrow irrigation system flow rate and furrow length are the main management and design parameters affecting irrigation efficiency (Eldeiry et al, 2005).…”
Section: Introductionmentioning
confidence: 99%
“…The results showed that, by reducing the length of the basin from 45 to 30 m and reducing the discharge from 90 to 30 l s‾¹, assuming a 35-min cut-off time, there are application efficiency of 100%, storage efficiency of 93.3% and distribution uniformity of 89.5%. Wu et al (2017) conducted field experiments on corn products in the dry north-west region of China to assess irrigation distribution uniformity and optimize the technical parameters of alternate and ordinary furrow irrigation. The SIRMOD model was used for combination optimization of field slope parameters, furrow length and flow rate.…”
Section: Introductionmentioning
confidence: 99%
“…Wu et al . (2017) conducted field experiments on corn products in the dry north‐west region of China to assess irrigation distribution uniformity and optimize the technical parameters of alternate and ordinary furrow irrigation. The SIRMOD model was used for combination optimization of field slope parameters, furrow length and flow rate.…”
Section: Introductionmentioning
confidence: 99%