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污水灌溉国内外研究现状与进展 总被引:20,自引:0,他引:20
随着污水灌溉的迅速发展,污水灌溉引发的环境污染问题进一步加剧,由于我国污水灌溉技术研究与科技推广滞后,以及缺乏对污灌区环境质量监测与管理,严重影响了污灌区饮水及食物安全,威胁着农业的可持续发展。总结分析了国内外污水灌溉发展概况及研究进展:包括污水灌溉污染物控制指标研究、污水灌溉技术、污水灌溉对作物生长及品质的影响、污水灌溉对土壤理化特性的影响、污水灌溉污染物运移规律。并针对我国污水灌溉存在的问题,探讨了污水灌溉技术研究进一步发展方向。 相似文献
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从具体国情出发,回顾了我国污水灌溉发展状况,综述了污灌区环境,污染物类型、迁移规律以及污灌对土壤-作物系统的影响等问题,并针对典型污灌区的现状进行了具体分析,提出了一些急需解决的问题及破题建议。旨在为科学合理地进行农田污水灌溉、缓解水资源供需矛盾及修复污灌区环境污染提供基础资料和参考建议。 相似文献
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开封市惠济河流域污水灌溉研究 总被引:1,自引:0,他引:1
由于承泄过量未经处理的工业及生活废水,开封市惠济河受到严重污染,水质成分复杂。通过分析该流域水质污染状况以及污水灌溉的不良影响,指出通过制定合理的灌溉制度、调整作物种植结构和建立完整的污水灌溉管理监测体系等措施,能充分利用污水中的水肥资源,加速污水资源化和改善开封市水资源匮乏的现状。 相似文献
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我国污水灌溉现状及典型区域分析 总被引:1,自引:0,他引:1
从具体国情出发,回顾了我国污水灌溉发展状况,综述了污灌区环境,污染物类型、迁移规律以及污灌对土壤一作物系统的影响等问题,并针对典型污灌区的现状进行了具体分析,提出了一些急需解决的问题及建议.旨在为科学合理地进行农田污水灌溉、缓解水资源供需矛盾及修复污灌区环境污染提供基础资料和参考建议. 相似文献
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为了使途径山东省济宁的南水北调东线工程的水质不受济宁市污水的污染,必须实现济宁市区污水资源化利用。针对济宁市区污水排放、农业灌溉、地下水超采等实际情况,提出了污水处理利用的原则及污水资源化工程的规划布置情况,并对工程规模和经济效益进行了确定和评价,最后提出了一些思考建议。 相似文献
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灌溉水质对土壤重金属含量的影响研究进展 总被引:2,自引:0,他引:2
利用污水灌溉农田既缓解水资源不足,也能促进水资源的可持续利用。不同灌溉水质会使土壤重金属发生不同程度的积累,给土壤环境质量和作物生长造成危害。本文在分析土壤中重金属来源以及重金属在土壤中形态、迁移、转化特点的基础上,重点分析了灌溉水质对土壤重金属含量特征的影响,并提出根据土壤不同重金属起始含量来制定灌溉水质有关相应标准有利于指导污水灌溉的合理进行。 相似文献
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为了研究养殖废水灌溉对土壤水溶性碳量及其占总有机碳量比例的剖面分布的影响,设置水质和灌溉量处理,测定了玉米地土壤总有机碳和水溶性碳量,分析了水溶性碳占总有机碳比例及其剖面分布特征。结果表明,总有机碳及水溶性碳量在土壤表层较高,且随着土层加深均有所减少。养殖废水灌溉条件下的土壤总有机碳和水溶性碳量总体上比清水灌溉处理的高,这说明在一定范围内养殖废水灌溉更有利于土壤中有机碳量的增加。清水灌溉条件下,灌水量为640 m~3/hm~2时土壤总有机碳量最高;灌水量为760 m~3/hm~2时水溶性碳量最高。养殖废水灌溉条件下,灌水量为880 m~3/hm~2时土壤总有机碳和水溶性碳量均为最高。由于土壤中的总有机碳在土壤深层分布较少,且随土层加深土壤总有机碳量下降幅度减小,水溶性碳占总有机碳的比例随土层深度加深而逐步增加。养殖废水灌溉有利于土壤总有机碳、水溶性碳量的增加,并可促进二者在土壤表层的积累。 相似文献
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Summary Investigations were carried out in 1989 to determine the evapotranspiration (ET) of alfalfa when irrigated with saline waste water coming from the evaporation of fresh water in the cooling towers of Utah Power and Light Company Electrical Power Plant at Huntington in central Utah, U.S.A. The primary goal is to dispose of the waste water from the power plant by irrigation and to maximize salt deposition in the soil, maximize crop ET, minimize runoff from the soil surface, and minimize leaching to the ground water. Using the Bowen ratio-energy balance method, alfalfa evapotranspiration was measured at an experimental site for each 20-minute period during the 1989 irrigation season. Using a simplified seasonal water balance, the results showed that cumulative irrigation plus rain was less than evapotranspiration for the 1989 irrigation season. This means that for the long term in addition to irrigation and precipitation some water was withdrawn from the soil for alfalfa crop water requirements (ETa). Short term evaluations showed that because of unforeseen heavy rain (thunder showers) in this mountainous area between irrigations, ETa was occasionally less than irrigation plus rain. This means the excess water was stored in the soil for later use. The average value for ETa/ETp (potential ET) for the 1989 irrigation season was 0.47 but occasionally the ratio was greater than unity. Short-term studies (Hanks et al. 1990 a) indicate that yield and ETa are likely to decrease only slightly for the coming years if saline irrigation water is applied. This method of investigation can be applied to any industrial processes which produce waste water. 相似文献
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H. M. Abo-Ghobar 《Irrigation Science》1993,14(1):15-19
The quality of municipal waste water is affected by its chemical composion and by the process used to treat it. If suspended solids limit infiltration, their removal by the municipal treatment facility is a factor to consider in the planning and management of water resources. The effect of water quality and sprinkler water application rate on bare soil infiltration was investigated. Treated wastewater and clean water were applied to a bare soil at two different application rates, 25 mm/hr and 100 mm/hr. The change in each soil infiltration rate after eight runs for each water quality was determined. The results showed that the reduction in infiltration rate was greatest for the soil under the treated wastewater application due to the effect of accumulation of suspended solids at the soil surface. 相似文献
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传统的农田灌溉与施肥方式不仅浪费人工成本,而且水肥利用效率低下,造成一定程度的资源浪费。作物在整个生长周期,对水肥有不同的用量需求,水肥耦合技术通过调控作物生长过程中灌水与肥料在时间、用量、灌溉模式上的合理配合,达到省水省肥、优质高产的目的。主要综述分析了水肥耦合对辣椒生长、光合特性、产量及品质的影响。结果表明,适宜的灌水量与施肥量不仅使土壤水分得到及时补充,还有利于土壤肥效的发挥,水肥耦合交互作用更加明显,促进了辣椒植株生长,提高了作物产量及品质。最后对未来农业种植模式进行了展望。 相似文献
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基于PLC和物联网感应的智能灌溉节水系统设计 总被引:3,自引:0,他引:3
为了减少水资源浪费,实现高精准农业灌溉,基于PLC和物联网技术,结合ZigBee与GPRS通讯技术,研究并设计了一种智能灌溉节水系统。系统通过无线传感器网络节点采集土壤湿度信息,以湿度偏差及偏差变化率作为输入量,建立模糊控制规则库,搭建了实验平台。试验结果表明:该智能灌溉节水系统具有设计合理、运行可靠、实用性强的优点,很好地满足了无线灌溉控制的要求,解决了传统灌溉水资源浪费大、稳定性差的问题,实现了节水灌溉的目的,在农业灌溉方面有很高的实际生产应用价值。 相似文献