微孔渗灌管水力特性的试验研究

通过试验实测的方法,对埋入地下的微孔渗灌管灌水时管路的水力特性进行了研究。结果表明,随着进水口压力、管长和微孔渗灌管透水性能的增加,微孔渗灌管水流量、沿程的水头损失和水力偏差率增大,且水头损失主要发生在微孔渗灌管靠近进水口的前半段。实际设计管网时,应综合考虑供水压力、渗灌管透水性能对水头损失的影响,确定管网中毛管的长度,保证灌水均匀度。     

Measured and simulated soil wetting patterns under porous clay pipe sub-surface irrigation

Sub-surface irrigation with porous clay pipe can be an efficient, water saving method of irrigation for many less developed arid and semi-arid regions. Maximizing the efficiency of clay pipe irrigation requires guidelines and criteria for system design and operation. In this study, experimental and simulated (with HYDRUS (2D/3D)) soil wetting patterns were investigated for sub-surface pipe systems operating at different water pressures. Predictions of the soil water content made with HYDRUS were found to be in good agreement (R² = 0.98) with the observed data. Additional simulations with HYDRUS were used to study the effects of various design parameters on soil wetting. Increasing the system pressure increased the size of the wetted zone. The installation depth affects the recommended lateral spacing as well as the amount of evaporative water loss. For a given water application, the potential rate of surface evaporation affected the shape of the wetted region only minimally. Soil texture, due to its connection to soil hydraulic conductivity and water retention, has a larger impact on the wetting geometry. In general, greater horizontal spreading occurs in fine texture soils, or in the case of layered soils, in the finer textured layers.     

微孔陶瓷渗灌与地下滴灌土壤水分运移特性对比

以微孔陶瓷灌水器为研究对象,在0 m工作水头下进行土壤水分运移特性试验,并以10 m额定工作水头下工作的地下滴灌灌水器作为对照。通过对比分析2种灌溉方式下累计入渗量、流量、湿润体特征和土壤含水率变化,结果表明:相同灌溉时间下微孔陶瓷渗灌的累计入渗量、湿润锋运移距离、湿润体截面面积均明显小于地下滴灌。微孔陶瓷渗灌的流量随时间逐渐减小,直至接近于零;试验后期,微孔陶瓷渗灌湿润体内整体土壤含水率变化较小;由于微孔陶瓷渗灌为无压连续灌溉,因此在其工作过程中可为作物提供一个恒定的水分环境。而地下滴灌的流量则会维持稳定,使得土壤含水率一直增大,停止灌溉后由于土壤水分再分布而减小。地下滴灌为被动恒压灌溉,因此其灌溉条件下作物生长的水分环境处于干湿交替的循环变化状态。     

基于分形理论的地下滴灌灌水器水力特性研究

为了研究滴头工作压力和土壤物理特性对地下滴灌灌水器流量的影响,采用分形理论分析各种级配土壤的分形特征;以土壤颗粒质量分形维数、灌水器工作压力、土壤容积密度、土壤初始含水率为试验因素,运用混合水平均匀设计方法进行试验。结果表明,粘粒含量大小是土壤分形维数的主要影响因素,土壤分形维数随着粘粒含量的增加而增大;PLASSIM公司地下滴灌灌水器流量随土壤分形维数的增大而减小,即土壤质地越细地下滴灌滴头流量就越小;通过试验所建立的包含有土壤分形维数因素的地下滴灌灌水器流量计算经验公式的普适性较高。     

玉米地下滴灌适宜出苗灌水定额试验研究

为探索解决地下滴灌玉米出苗难的问题,通过土箱试验,对内蒙古自治区具有典型代表性的3种土壤,开展了毛管铺设参数(滴头流量、埋深)和灌水定额对地下滴灌湿润半径的影响规律试验,结合玉米播种深度、水分向上及向下运移的距离及种子周围土壤含水量,研究了玉米适宜出苗灌水定额,以提高出苗率,指导实际生产.结果表明:按显著性水平0.05检验,土壤类型和灌水定额均对土壤湿润半径影响具有统计学意义,而滴头流量和埋深对湿润半径影响不具有统计学意义.在黏壤土中,玉米出苗灌水定额37.5~52.5 mm基本可满足毛管埋深25~35 cm的出苗要求;在壤土中,玉米出苗灌水定额37.5 mm左右基本可满足毛管埋深25~30 cm的出苗要求,灌水定额52.5 mm左右基本可满足埋深30~35 cm的出苗要求;在砂壤土中,灌水定额22.5~37.5 mm基本可满足毛管埋深约25 cm的玉米出苗要求,灌水定额52.5 mm基本可满足毛管埋深25~35 cm的玉米出苗要求.     

微孔渗灌条件下土壤水分运动数值模拟

为提高微孔渗灌条件下土壤水分运动数值模拟精度,建立了含有第3类边界条件的二维微孔渗灌土壤水分运动数学模型,着重论述了微孔管3类边界条件处理的流速分解法,并采用ADI交替方向隐式差分法求解数学模型。室内试验结果表明,在渗灌管边界,模拟计算结果的相对误差在6.7%以内,远离渗灌管的地方误差更小,实测值与模拟值二者吻合较好。说明建立的数学模型、边界条件和求解方法具有较高的精度,提出的微孔管边界处理的流速分解法具有可行性,可用来模拟各种因素(微孔管特性、供水特性与土壤特性)影响下微孔渗灌条件下的土壤水分运动。     

石羊河流域咸水灌溉对土壤物理性质的影响

为揭示咸水灌溉对土壤水力特性的影响机制,探求西北内陆干旱地区的合理灌溉模式,对石羊河流域中游地区开展制种玉米咸水灌溉田间试验,通过设置4种灌溉水矿化度水平(0.71,3.00,6.00,9.00 g/L),研究土壤盐分对土壤容重、孔隙度、质地和饱和导水率的影响.研究结果表明:对土壤进行咸水灌溉会引起土壤容重、孔隙度的改变,从而改变土壤饱和导水率.随着灌水次数的增多,各个处理土壤容重都越来越大,孔隙度越来越小,从而使得饱和导水率越来越小.此外咸水灌溉还会引起土壤质地的改变,特别是黏粒含量的增大,会使土壤饱和导水率减小.研究成果对咸水资源的高效利用及农业的可持续发展,具有重要的理论意义和实用价值.     

作物根区局部控水无压灌溉的土壤水动力学机理

土壤吸力是土壤中水分运动的驱动力。依据土壤水动力学原理提出的根区局部控水无压地下灌溉技术是利用土壤毛管吸力或基质吸力作用,使水分通过输水毛管上的出水孔口进入作物根系层,以满足作物需水,灌溉时不需外加压力。试验表明这种灌水方法是可行的,无压灌溉系统不需任何动力设备为其提供压力,节约了能源。     

几种地下滴灌(渗灌)灌水器性能的室内外试验研究

选择有代表性的 3种国产多孔渗水管和一种地面滴灌管进行室内外试验检测 ,比较各类灌水器的防堵性能、出流均匀性和压力流量关系等工作性能。结果表明 ,多孔管的上述测试指标均不理想 ,而具有压力补偿性能的滴灌管经无纺布外包处理地埋后 ,既具备防止负压堵塞的能力又可在田间 1m管距布设条件下获得良好的灌水均匀性。为此 ,研制一种既能抗负压堵塞、又具备较好压力补偿性能的地下滴灌灌水器是十分必要的。     

Simple microirrigation techniques for improving irrigation efficiency on vegetable gardens

Microirrigation techniques can be used to improve irrigation efficiency on vegetable gardens by reducing soil evaporation and drainage losses and by creating and maintaining soil moisture conditions that are favourable to crop growth. Water balance experiments in Zimbabwe showed that over 50% of the water applied as surface irrigation on traditional irrigated gardens can be lost as soil evaporation. This result gives an indication of the potential improvement in irrigation efficiency that can be achieved by adopting irrigation methods that reduce soil evaporation at the same time as minimising losses due to drainage and canopy interception. During the period 1985 to 1995, irrigation trials and experiments were carried out in south-east Zimbabwe and northern Sri Lanka with the main aim of comparing and quantifying the benefits of using simple microirrigation techniques on traditional vegetable gardens. This paper reviews the results of these trials and experiments. Microirrigation techniques that were evaluated included low-head drip irrigation, pitcher irrigation and subsurface irrigation using clay pipes. Of these methods, subsurface irrigation using clay pipes was found to be particularly effective in improving yields, crop quality and water use efficiency as well as being cheap, simple and easy to use. The comparative advantages of subsurface irrigation were maintained for a range of crops grown under different climatic conditions. Good results were also obtained with subsurface irrigation when irrigation was carried out using with poor quality irrigation water.     

沾益区炎方乡来远银杏苗圃滴灌工程设计

云南省沾益区炎方乡来远银杏苗圃采用滴灌方式灌溉,设计灌溉面积180hm2,支管、毛管铺设是滴灌设计的核心内容.以项目区基本资料和灌溉制度为基础,通过水力计算来确定支管、毛管铺设参数.项目区分10组轮灌,灌水周期5d,灌水延续时间6h,净灌水定额18mm,毛灌水定额20mm.滴头流量2L/h,工作压力水头15m.最终:支管铺设长60m,间距60m,50孔,选用0.8MPa DN63PE100级管;毛管铺设长100m,间距1.2m,100孔,选用0.6MPaDN25PE100级管;选用16(0.15MPa)压力补偿滴头.     

Simulation of soil water dynamics under subsurface drip irrigation from line sources

A mathematical model which describes water flow under subsurface drip lines taking into account root water uptake, evaporation of soil water from the soil surface and hysteresis in the soil water characteristic curve θ(H) is presented. The model performance in simulating soil water dynamics was evaluated by comparing the predicted soil water content values with both those of Hydrus 2D model and those of an analytical solution for a buried single strip source. Soil water distribution patterns for three soils (loamy sand, silt, silty clay loam) and two discharge rates (2 and 4 l m⁻¹ h⁻¹) at four different times are presented. The numerical results showed that the soil wetting pattern mainly depends on soil hydraulic properties; that at a time equal to irrigation duration decreasing the discharge rate of the line sources but maintaining the applied irrigation depth, the vertical and horizontal components of the wetting front were increased; that at a time equal to the total simulation time the discharge rate has no effect on the actual transpiration and actual soil evaporation and a small effect on deep percolation. Also the numerical results showed that when the soil evaporation is neglected the soil water is more easily taken up by the plant roots.     

外包滤料对暗管排水与土壤脱盐效果的影响

为了探究不同外包滤料条件下的暗管排水性能和土壤脱盐效果,基于室内试验研究成果,在田间设置4种暗管排水系统(各系统中暗管埋深均为80 cm,间距均为20 m),所用外包滤料分别为68 g/m²土工布(L)、砂滤料(S)、68 g/m²土工布+砂滤料(LS)和无外包滤料(W),以当地常规明沟排水(CK)作为对照,通过田间试验分析了春灌过程中各暗管系统的排水性能指标及土壤脱盐效率.结果表明:相比处理W,处理L,S和LS平均排水速率提升了7.44%,12.55%和15.75%,平均流量衰减度降低4.07%;处理S和LS累积排水量提高了5.11%和8.31%(P<0.05).各暗管处理春灌后平均土壤脱盐率均达47%以上,较CK提升显著,其中处理LS效果最优,为50.94%.综上,应优先选择处理LS作为河套灌区暗管排水系统外包滤料布设方案.该研究结果可为河套灌区暗管排盐技术的推广应用提供理论支撑和科学指导.     

Dripper Discharge Rates and the Hydraulic Properties of the Soil

The hydraulic properties of soils areneeded in predicting runoff and erosion,irrigation design and general transportphenomena in the soil. Theoretical toolshave been developed to estimate them frommeasurements of water distribution near apoint source assuming stable homogeneousand isotropic soils. Soil wetting rate andits interaction with soil texture was notconsidered in these analyses even thoughreports indicated that a high wetting ratedisintegrates soil's aggregates and isassociated with deterioration of soilstructure and reduction of the hydraulicconductivity (HC) and infiltration rates(IR) especially in clay soils. Objectiveswere to: (i) show how IR of a soil, wettedfrom a point source, are affected by thedischarge rate of the dripper. (ii)identify the mechanisms responsible forthis reduction and (iii) investigate theeffect of emitter's discharge on theresultant HC of sand,loam and clay. Werelated the reduction of IR under highemitter discharge to the breakdown of soilaggregates by fast wetting anddeterioration of the hydraulic propertiesof soils, (the pedological mechanism,).Results show that relative to the idealstable soil the steady IR decreased withan increase in the discharge rate of thedripper. The resultant saturated HC(K_s) was, erroneously, negative forclay and loamy soils but not for sand.When determining hydraulic properties ofsoils with a point source, low dischargesshould produce better results especiallyin soils with medium to high clay content.     

Soil-dependent wetting from trickle emitters: implications for system design and management

For trickle irrigation systems to deliver improved water- and nutrient-use efficiency, distance between emitters and emitter flow rates must be matched to the soil's wetting characteristics and the amount and timing of water to be supplied to the crop. Broad soil texture ranges (e.g. sand, loam, clay) are usually the only information related to soil wetting used in trickle system designs. In this study, dimensions of wetted soil were calculated from hydraulic properties of 29 soils covering a wide range of textures and soil hydraulic properties to assess the impact of soil texture and/or type on soil wetting patterns. The soils came from two groups that differed in the extent to which hydraulic properties depended on soil texture. Vertical and radial distances to the wetting front from both surface and buried emitters were calculated for conditions commonly associated with daily irrigation applications in a widely spaced row crop (sugarcane) and horticultural crops. In the first group of soils, which had least expression of field structure, the wetted volume became more spherical (i.e. the wetted radius increased relative to the depth of wetting below the emitter) with increasing clay content, as is commonly accepted. However, in the second group of soils in which field structure was preserved, there was no such relationship between wetted dimensions and texture. For example, five soils with the same texture had as great a variation in wetting pattern, as did all 11 soils in the first group, indicating the considerable impact of field structure on wetting patterns. The implications of the results for system design and management were illustrated by comparing current recommendations for trickle irrigation systems in coastal northeastern Australia with the calculated wetted dimensions. The results suggest that (1) emitter spacings recommended for sugarcane are generally too large to allow complete wetting between emitters, and (2) the depth of wetting may be greater than the active root zone for both sugarcane and small crops in many soils, resulting in losses of water and chemicals below the root zone. We conclude that texture is an unreliable predictor of wetting and there is no basis for adopting different dripper spacing in soils of different textures in the absence of site-specific information on soil wetting. Such information is crucial for the design of efficient trickle irrigation systems.Communicated by J. Annandale     

膜下滴灌暗管排水规律及土壤脱盐效果试验研究

为了探索膜下滴灌盐碱地在灌溉过程中暗管排水规律及土壤脱盐效率,设计了一种暗管排水模型试验装置系统来探究灌溉过程中暗管排水规律和排盐效果.试验通过控制灌水时间、灌水量、观测并记录暗管出水时间、排水流量、排水矿化度、土壤盐分剖面等指标,分析灌溉排水过程中暗管排水流速和排水矿化度特征以及各土层土壤脱盐效率.结果表明:经过3次灌水淋洗试验后,暗管排水流速最终趋于1.5~3.5 L/h稳定范围,排水矿化度稳定在20~40 g/L内;0~40 cm土层脱盐率高达85%,0~80 cm土层土壤脱盐率为80.5%,两暗管中间位置处脱盐率最小分别为57.96%,56.73%,69.29%,暗管上方脱盐率最大分别为71.73%,73.34%,84.26%,暗管排盐量占0~80 cm土层总盐分含量的28.9%,其余盐分被淋洗到了80 cm土层以下.     

太阳能暗管排水对银北灌区油葵土壤环境及产量影响

针对土壤盐渍化严重影响了宁夏银北灌区土壤环境和作物产量的问题,通过太阳能暗管排水区和非暗管排水区对比试验方法,着重研究了2017和2018两年太阳能暗管长时间持续排水对土壤环境和油葵产量的影响。结果表明:太阳能暗管排水可以有效改善土壤环境,使两年的地下水平均埋深分别增加4.5%和6.4%,地下水平均矿化度分别降低7.9%和9.0%,两年土壤平均脱盐率分别为4.7%和8.2%,对表层土壤的脱盐效果最为明显。同时提高了油葵产量和水分生产效率,两年油葵产量分别提高13.8%和21.6%,灌溉水分生产效率分别增加13.3%和21.8%,作物水分生产效率分别增加16.4%和22.9%。综合试验结果和经济成本考虑,油葵生育期灌水2次、播前灌水1次、冬灌1次,生育期5-9月持续排水,这是适宜惠农当地太阳能暗管排水条件下油葵的灌排制度。     

滴灌和微润灌条件下桂西北山区典型土壤水分运移规律分析

为了研究滴灌和微润灌在广西山区主要土壤的水分运移规律,在广西山区选择砂土、壤土和黏土等三种典型土壤,在室内建立并开展土壤水分运移规律试验。试验结果表明:1在地埋黏土、壤土和砂土以及0.10 MPa工作压力条件下,微润管的单米流量分别为0.24、0.31和0.43L/h,为地表出流量的67.6%~98.8%,滴灌管的单米流量为4.17、5.92和6.10L/h,为地表出流量的38.1%~68.2%;2在3种土壤中,滴灌和微润灌的水分运移形状初期为圆形,后期为椭圆形,但砂土的湿润范围最大、壤土次之、黏土最小;3在土箱相同位置,黏土的土壤含水率最大,壤土次之,砂土最小;4根据滴灌和微润灌的土壤水分运移规律,提出滴灌管和微润管在砂土、壤土的适宜埋深为20cm,在黏土的适宜埋深为10cm。     

渗灌管首末端压力与茶树根区土壤水分运移关系

为探明渗灌条件下渗灌管首末端压力与土壤水分运移之间的关系,设置了3个试验小区进行不同灌水流量和灌水持续时间的试验.通过连续定点观测茶树根区(纵向30 cm深,横向30 cm宽)土壤含水率的变化和渗灌管首末端灌水压力,研究了渗灌管不同首末端压力下土壤水分运移的变化规律.研究表明:灌水前土壤含水率不仅影响土壤入渗能力,而且决定着土壤水分运移方向;渗灌管首末端压力累积值与灌水持续时间呈线性关系,当茶树根区土壤含水率达到田间持水量时,累积曲线斜率发生突变,可以利用累积曲线斜率发生突变时的灌水持续时间作为控制充分灌水(100%田间持水量)的临界值,避免土壤水分无效渗漏.该研究为渗灌系统控制灌水持续时间及研发智能化渗灌灌溉系统提供了一种参考方法.     

直插式地下滴灌土壤湿润体特征值变化规律及灌溉效果分析

【目的】了解2种典型干旱区土壤(砂土、砂黏土)中直插式地下滴灌的灌水效果。【方法】以实测的土壤湿润锋在垂直向上、向下和水平3个方向的运移距离为基础,建立了土壤湿润锋运移距离与直插式地下滴灌滴头流速和灌水时间之间的函数关系,依据此量化关系结合土壤含水率求得了直插式地下滴灌的微灌技术参数,并评价了直插式地下滴灌在干旱区砂土、砂黏土中的灌水效果。【结果】在2种土质条件下,湿润锋不同方向上的运移距离与滴头流速和灌水时间之间的量化关系式R2>0.95,验证方程R2>0.95,表明模型可行;在砂土中,灌溉水储存系数、灌水均匀系数及土壤湿润比均小于0.6,而在砂黏土中均高于0.8,表明直插式地下滴灌在砂土中灌水效果比砂黏土差。【结论】幂函数可准确描述砂土、砂黏土中直插式地下滴灌湿润峰运移距离、滴头出流速度和灌水时间之间的关系;垂直向上湿润距离与滴头流速负相关,与灌水时间正相关,水平与向下湿润距离与流速、灌水时间均正相关;在本试验条件下,流速为1.25 L/h灌水效果最好。