2) line source permeation
线源入渗
1.
Study on effects of irrigation frequency on soil water-transport of line source permeation under subsurface drip irrigation;
灌水频率对地下滴灌线源入渗土壤水分运动规律影响的试验研究
2.
The effects of initial water content on soil water-transport of line source permeation under subsurface drip irrigation(SDI) is analyzed by indoor experiment.
通过室内试验,分析了4种土壤初始含水率对地下滴灌线源入渗土壤水分运动规律的影响,结果表明,随着初始含水率的增大,湿润锋向下运移的速度变大,向上和水平方向运移的速度均减小,且滴头下方的土壤含水率相对较高;水平方向在滴头左右相同位置处的土壤含水率基本相同,呈左右对称分布。
3) point source infiltration
点源入渗
1.
Research advances of point source infiltration under film hole irrigation with sufficient water supply;
膜孔灌充分供水点源入渗研究进展
2.
The influence of soil texture bulk density and water applied methods on point source infiltration;
土壤质地、密度及供水方式对点源入渗特性的影响
3.
The mathematics simulation models of point source infiltration interrelated with drip irrigation water dynamic are summarized,and the structure,characteristic and problem of analytical model,numerical model and empirical model are discussed.
就与滴灌水分动态密切相关的点源入渗过程的数学模拟方法进行了综述,对解析解、数值解和经验解的结构、特点及主要存在的问题进行了论述,并介绍了考虑作物根系吸水的滴灌入渗水分运动模型。
4) single point source infiltration
单点源入渗
1.
Thereby two single point source infiltration models including the side infiltration .
通过室内膜孔单点源入渗试验,分析了膜孔灌单点源入渗单位面积侧渗量与一维垂直入渗量的变化规律,研究了膜孔灌单点源入渗单位面积侧渗量与入渗时间、膜孔直径之间的关系,建立了包含垂直一维入渗量和侧渗量的两个具有明确物理意义的膜孔单点源入渗模型,只需知道垂直一维入渗参数、膜孔直径和入渗时间,即可用于膜孔单点源入渗量的计算。
5) point source infiltration parameter
点源入渗参数
1.
Determination of point source infiltration parameters based on Kostiakov model with field irrigation data in film hole irrigation;
由膜孔灌田面灌水参数推求基于Kostiakov模型的点源入渗参数
2.
This paper studies the behaviors of water flow advance process based on field experimental data, and suggests the film hole infiltration model based on the Kostiakov infiltration equation, and presents a new method of determining single point source infiltration parameters under adequate water supply in film hole irrigation.
根据膜孔畦灌大田灌水试验实测资料,研究了膜上水流推进规律,并对膜孔入渗采用Kostiakov入渗模型,提出利用膜孔畦灌田面水流推进和观测断面水深资料推求充分供水条件下点源入渗参数的新方法。
6) point source infiltration model
点源入渗模型
补充资料:灌溉入渗补给系数
灌溉入渗补给系数
coefficient of irrigation recharge into ground water
guan’gai rushen buji xishu灌溉入渗补给系数(eoeffieient of irriga-tion reeharge into ground water)灌溉水补给地下水的数量指标,是灌溉入渗补给地下水的量与灌溉水量之比。影响因素主要有灌溉定额,土壤含水量、土壤质地、地下水埋深、植被情况和气候条件等。 灌溉水入渗,只有在土壤含水量超过田间持水量时,多余的水才能补给地下水。一般在相同的条件下,灌溉定额小、土壤质地粘重与植被差时,灌溉入渗补给系数小(如果灌溉定额很小,可能无入渗补给);反之则大。田间的地下水埋深大(即非饱和带上壤的厚度较大),故灌溉入渗补给系数小;反之亦然。当引外区的河水或井水时,由灌溉入渗补给系数算得补给地下水量,作为本区的地下水补给量。引河水灌溉,一般灌水定额较大,灌溉入渗补给系数大;引井水灌溉,灌水定额较小,此系数亦小。(金光炎)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条