共查询到18条相似文献,搜索用时 875 毫秒
1.
《中国农村水利水电》2016,(8)
对于较大地下水埋深的地区较大,改进暗管排水技术是否可以起到除涝作用值得讨论。基于室内土柱试验,考虑地下水埋深、反滤体宽度以及土体介质3个因素,分析了非饱和土体、地表持续积水一定时间后,改进暗排的排水性能。结果表明:细砂土介质中,地下水埋深很大时,常规暗排的排水能力有很大局限性,而改进暗排的排水能力仍然显著;地下水埋深为暗管埋深2倍时,改进暗排自由出流排水流量为相同条件下常规暗排排水流量的2.5~3.5倍,为土体介质完全饱和条件下常规暗排排水流量的2倍;相同地下水埋深条件下,改进暗排在细砂土介质中的排水效果好于粗砂土介质,反滤体宽度对单位时间暗管排出水量和下渗补给地下水水量的比值有很大影响。研究成果可为在地下水埋深较大地区推广应用高效的暗排工程技术提供技术支撑。 相似文献
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在地下水位较高、地表易于形成积水的中国南方地区,通过农田排水措施可以及时排除多余地表积水,快速降低地下水位,以达到排涝降渍、协同调控的目的.文中基于室内砂槽试验,揭示暗管排水、明沟排水、不同反滤体高度的反滤体排水及改进暗管排水等措施的地下排水规律及效果.结果表明:将暗管周围土体置换为高渗透性土体介质的改进暗管排水可明显提高排水流量,当土体置换高度达2 cm时(对应于田间条件40 cm),其排水流量均高于相同埋深条件下的其他排水措施,达暗管排水的1.59~1.66倍;改进暗排在地表积水消失时仍保持较大的排水流量,可达相同埋深暗管流量的2倍以上,在积水层消失后,能迅速降低农田土壤水的渍害胁迫,将地下水位降低至暗管埋设高度;各种排水措施,在地表积水即将消失时,出现了流量与水头变化幅度较大的现象.相对于各种地下排水措施,改进暗管排水在除涝降渍中存在明显优势.研究结果可为涝渍灾害易发地区高效除涝降渍减灾工程设计和建设提供参考. 相似文献
3.
改进暗管排水技术淤堵防护措施试验研究 总被引:4,自引:0,他引:4
基于室内土柱试验,依据太沙基准则,考虑2种反滤体铺设方式、2种土工布类型以及3种土工布铺设位置,模拟改进暗管排水条件下反滤体或土工布的单一防护措施以及反滤体与土工布结合的组合防护措施下排水流量的衰减过程,得到不同方案的土工布淤堵量及土壤流失量,提出改进暗管排水条件下反滤体及土工布的合理布局。研究结果表明,依据太沙基准则选择改进暗管排水的砂砾石规格是合理可行的;仅在暗管周围铺设土工布的分层和混合反滤体方案对防护土工布淤堵和土壤流失均有较好效果;综合考虑流量衰减过程、土工布淤堵量和土壤流失量,确保改进暗管排水的长期稳定运行,应优先考虑分层反滤体结合暗管周围铺设合理土工布的方案。 相似文献
4.
李光化 《中国农村水利水电》2004,(5):56-57
砂卵石反滤排水暗槽就是于坝体内部设置一个反滤排水体,将来自库内的异常渗水按照设计意图排到指定的地方,以达到降低坝体浸润线,提高坝坡抗滑稳定性的目的。重点讨论了砂卵石反滤排渗暗槽的结构型式、运行机理及砂卵石反滤排渗暗槽的设计计算方面的有关问题。 相似文献
5.
滴灌条件下暗管滤层结构对排水、排盐效果的影响 总被引:1,自引:1,他引:0
为解决滴灌农田非饱和条件下暗管排水困难的问题,设置2种暗管滤层铺设方式,以常规暗管滤层进行排水为对照,基于室内土槽试验,分析了滤层铺设方式对暗管排水排盐效果的影响及其机理。T1处理为常规暗管滤层铺设方式,暗管四周铺设细砂滤层,T2处理为暗管上部铺设细砂,T3处理为细砂斜垫层斜铺连接体积质量分界层与暗管。结果表明,T1处理受土壤水滞后效应影响显著,暗管不排水,土壤水、盐积聚于暗管底部;T2、T3处理可在暗管上部产生局部饱和区,促使暗管排水。T2处理排水时所需历时较长,排出的水盐总量较少;T3处理可使暗管最早排水,排水时暗管下部土壤积盐最少,排水流量和排水盐总量最大。 相似文献
6.
秸秆排水体的排水脱盐效果研究 总被引:1,自引:0,他引:1
通过田间试验,对比研究了秸秆排水体和PVC波纹管对滨海盐渍土的排水脱盐效果。结果表明,秸秆排水体和PVC波纹管排水的单位面积排水总量分别为0.012 8、0.014 7m3/m2,单位面积排盐总量分别为76.06、55.77g/m2,排水矿化度比埋管前分别下降46.26%、32.66%;0~100cm土壤剖面,各土层土壤脱盐率差异较大,秸秆排水体为34.32%~48.75%,PVC波纹管为30.33%~53.24%。1m土体中,秸秆排水体的土壤脱盐率比PVC波纹管低1.48%,但60~100cm土层秸秆排水体脱盐效果明显高于PVC管。秸秆排水体作为暗管排水材料,可加速土壤脱盐,排水脱盐效果显著,能够有效改良盐碱土。 相似文献
7.
在填土工程中,为了探索了一种施工简便,造价低廉,排水反效果好的方法,通过3种方式的对比试验,最终选择了以无纺土工程织物包裹取聚乙烯微孔波纹管排水滤层代替传统的砂井,砂沟,排水棱体和褥垫排渗设施,并介绍了无纺土工织物包裹聚乙烯微孔波纹管排水滤层的工程特点,耐久性,耐久性,适用范围,技术经济分析及工程实例。 相似文献
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9.
地表积水条件下滴灌入渗特性研究 总被引:3,自引:2,他引:1
大流量供水条件下滴灌入渗地表积水区域不断变大,直到通过积水区域的水分渗透能力和滴头的供水强度达到平衡。不同滴头流量条件下水平和垂向湿润锋的推进速率和入渗时间存在极显著的幂函数关系。滴头流量对湿润体水平和垂向湿润距离的比值有显著的影响,滴头流量越大该值也越大,并且该值随着入渗时间的增加而逐渐变小。滴灌积水入渗的稳定渗透通量Jo大于垂直一维入渗的稳渗率,并且Jo随滴头流量的增加而减小,Jo和地表积水半径的倒数呈显著的线性关系,根据Wooding入渗方程可推导出该直线的截距代表了一维入渗条件下土壤的饱和导水率。 相似文献
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11.
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. 相似文献
12.
Verification of drainage design criteria in the Nile Delta,Egypt 总被引:1,自引:0,他引:1
A monitoring programme to verify the design criteria of subsurface drainage systems was conducted in a pilot area in the Nile Delta in Egypt. The programme, which covered a 9-year period, included the monitoring of the cropping pattern, crop yield, soil salinity, watertable, discharge and salinity of the drainage water and overpressure in the subsurface drainage system. The results showed that the yield of all crops (wheat, berseem, maize, rice and cotton) increased significantly after the installation of the subsurface drainage system. Optimum growing conditions for the combination of crops that are cultivated in rotation in the area required that the watertable midway between the drains had a average depth of 0.80 m. A corresponding drain discharge of 0.4 mm/d was sufficient to cope with the prevailing percolation losses of irrigation water and to maintain favourable soil-salinity levels. The additional natural drainage rate in the area was estimated at 0.5 mm/d. The most effective way to attain these favourable drainage conditions is to install drains at a depth between 1.20 to 1.40 m. For drain-pipe capacity the Manning equation can be used with a design rate of 1.2 mm/d, for collector drains this rate should be increased to 1.8 mm/d to compensate for the higher discharge rates from rice fields. These rates should be used in combination with a roughness coefficient (n) of 0.028 to take sedimentation and irregularities in the alignment into account. When this value of the roughness coefficient is used, no additional safety has to be incorporated in the other design factors (e.g. the design rate). 相似文献
13.
Mahmoud M. Moustafa 《Irrigation and Drainage Systems》1998,12(2):141-159
Drainage water from the lower boundary of the root zone is an important factor in the irrigated agricultural lands for prediction of the water table behavior and understanding and modeling of water and chemical movement in the soil profile. The drainage coefficient is an important parameter for the design of subsurface drainage. On a 33,138 ha of the Nile Delta in Egypt, this study is conducted using 90 irrigation periods over a 3-year crop rotation to estimate the time-dependent drainage from the root zone and the design subsurface drainage coefficient with different cropping seasons and irrigation management levels.The results showed that the cropping seasons and the irrigation management levels as indicated by different irrigation efficiency are significantly affected the drainage rate from the root zone and the design value of subsurface drainage coefficient. Drainage rates from the root zone of 1.72 mm/d and 0.82 mm/d were estimated for summer and winter seasons, respectively. These rates significantly decreased in a range of 46% to 92% during summer season and 60% to 98% during winter season when the irrigation efficiency is increased in a range of 5% to 15%. The subsurface drainage coefficient was estimated to be 1.09 mm/d whereas the design drain pipe capacity was estimated to be 2.2 mm/d, based on the peak discharge of the most critical crop (maize), rather than 4.0 mm/d which is currently used. A significant decrease of the drainage coefficient and the drain pipe capacity ranges from 18% to 45% was found with the increase of irrigation efficiency in a range of 5% to 15%. The leaching requirement for each crop was also estimated. 相似文献
14.
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. 相似文献
15.
暗管排水和有机肥施用下滨海设施土壤氮素行为特征 总被引:3,自引:0,他引:3
为揭示暗管排水和微生物有机肥施用下滨海设施土壤氮素的归趋和转化机制,设计了暗管排水结合有机肥处理(S-OF)、暗管排水结合无机肥处理(S-IF)和无暗管排水的无机肥处理(CK),以葡萄和油菜间作栽培为模型系统,观测土壤总氮含量在垂直剖面上的分布、耕层土壤矿质态氮含量和有机态氮含量的变化及其与土壤理化性质的相关性。结果表明:暗管排水和微生物有机肥共同驱动下,土壤容重有所降低,孔隙度升高;暗管排水促使耕层土壤总氮向深层土壤迁移,相比S-IF,S-OF处理耕层土壤总氮的降低幅度较小;滨海设施土壤耕层的总氮80%以上以有机态形式存在,矿质态氮所占比例很小,S-OF处理有利于试验后期土壤矿质态氮含量的提升;耕层土壤矿质态氮含量与土壤有机质、总有机碳含量呈极显著正相关。暗管排水和微生物有机肥施用有利于改善滨海设施土壤结构,提高耕层土壤有机质和总有机碳含量,促进土壤有机态氮向矿质态氮的转化,本研究结果可为滨海设施土壤改良和水肥决策提供科学依据。 相似文献
16.
太阳能暗管排水对银北灌区油葵土壤环境及产量影响 总被引:2,自引:0,他引:2
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。 相似文献
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采用埋深 1 0 cm的微孔渗灌管对日光温室晚春茬生菜进行了渗灌试验 ,并与沟灌进行了对比。结果表明 ,晚春茬生菜采用渗灌有明显的节水增产效果 ,与沟灌相比可节水 1 9.0 %、增产 1 5 .4 %。通过与栽培措施相结合采用渗灌成功地进行了生菜的定植。渗灌管浅埋灌水可以使表层土壤较快地湿润 ,并达到蔬菜生长所要求的水分 ,同时显著减少灌溉水的深层渗漏 ,提高灌溉水的利用率。温室生菜的田间蒸散量与温室内的蒸发力有直接关系 ,生育期内的日平均田间蒸散量为 2 .0 8mm/d,比沟灌温室内的高。 相似文献
18.
Willy Dierickx 《Irrigation and Drainage Systems》1993,6(4):291-310
Subsurface drainage requires appropriate materials to ensure a proper functioning of the drainage system. The materials normally applied for subsurface drainage are drain pipes and envelopes. Besides a review of the materials used for drain pipes, their hydraulic characteristics — discharge capacity and entrance resistance — have been treated. Much attention is paid to subsurface drainage envelope materials because of practical problems and a serious gap in knowledge, in spite of considerable research efforts. After treating the aim of drainage envelopes, a review of the used materials is given. Practical experience with gravel envelopes, still often used in irrigated areas, shows serious shortcomings. Since organic envelopes are vulnerable to deterioration, the only possible alternative are synthetic envelopes. Their property to retain soil particles is characterized by the so-called filter criteria. Laboratory research and field experiments to evaluate the blocking and clogging aspects of synthetic envelopes are discussed and selection criteria given. 相似文献