干旱地区农业研究
榦旱地區農業研究
간한지구농업연구
AGRICULTURAL RESEARCH IN THE ARID AREAS
2014年
2期
196-200
,共5页
滴头%堵塞%堵塞率%堵塞位置%灌水均匀度
滴頭%堵塞%堵塞率%堵塞位置%灌水均勻度
적두%도새%도새솔%도새위치%관수균균도
emitter%clogged%clogged ratio%clogged location%irrigation uniformity
采用控制堵塞试验的方法,在压力恒定的条件下,分析了堵塞率、堵塞位置对灌水均匀度的影响规律。试验结果表明:当压力在4~10 m 变化时,压力对于灌水均匀度的影响不显著,其变化范围在1%以内,生产实际中可以适当降低滴灌带的工作压力达到降低造价的目的;堵塞率是影响灌水均匀度的主要原因,堵塞率越高灌水均匀度越差,当堵塞率超过10%时,灌水均匀度 CU 已经远低于规范的最低值;只有当堵塞率不大于10%时,堵塞位置才对灌水均匀度有一定的影响,当堵塞位置分布在滴灌带前三分之一段和全段时,对灌水均匀度的影响较明显,此时灌水均匀度最小。
採用控製堵塞試驗的方法,在壓力恆定的條件下,分析瞭堵塞率、堵塞位置對灌水均勻度的影響規律。試驗結果錶明:噹壓力在4~10 m 變化時,壓力對于灌水均勻度的影響不顯著,其變化範圍在1%以內,生產實際中可以適噹降低滴灌帶的工作壓力達到降低造價的目的;堵塞率是影響灌水均勻度的主要原因,堵塞率越高灌水均勻度越差,噹堵塞率超過10%時,灌水均勻度 CU 已經遠低于規範的最低值;隻有噹堵塞率不大于10%時,堵塞位置纔對灌水均勻度有一定的影響,噹堵塞位置分佈在滴灌帶前三分之一段和全段時,對灌水均勻度的影響較明顯,此時灌水均勻度最小。
채용공제도새시험적방법,재압력항정적조건하,분석료도새솔、도새위치대관수균균도적영향규률。시험결과표명:당압력재4~10 m 변화시,압력대우관수균균도적영향불현저,기변화범위재1%이내,생산실제중가이괄당강저적관대적공작압력체도강저조개적목적;도새솔시영향관수균균도적주요원인,도새솔월고관수균균도월차,당도새솔초과10%시,관수균균도 CU 이경원저우규범적최저치;지유당도새솔불대우10%시,도새위치재대관수균균도유일정적영향,당도새위치분포재적관대전삼분지일단화전단시,대관수균균도적영향교명현,차시관수균균도최소。
Using the method to control the clogged experiment ,under the condition of constant working pressure , has analyzed the influence rule of the emitter clogged rate ,clogged location to the irrigation uniformity .The test results showed that :When the working pressure was changed at the 4 to 10 m ,the influence of pressure to the irrigation unifor-mity was not obvious ,as the change range was less than 1% .So in the production practice ,the working pressure of the trickle irrigation line can be properly decreased to achieve the purpose of reducing the cost .It is found that the emitter clogged rate was the main reason for affecting the irrigation uniformity ,the higher emitter clogged rate ,the poorer irriga-tion uniformity .When the emitter clogged rate is high than 10% ,the irrigation uniformity CU will be more less than the minimal value in the code .So only the emitter clogged rate was less than 10% ,the logged position will be a certain in-fluence to the irrigation uniformity .When the emitter clogged position distributed at the first one-third section and along entire line ,the influence to the irrigation uniformity will be rather obvious ,right now the irrigation uniformity will be the minimum .