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    林果类地下自密封压力注灌装置研究

    Underground self-sealing pressure injection equipment for forest and fruit trees

    • 摘要:
        目的  林果灌溉作业中,常用的节水灌溉方式(如滴管、喷灌等)由于其水肥都灌于地表而易产生蒸发损失和盐碱化,亟需可有效对果树地下根部进行直接灌溉,同时保证水肥不会向地表溢出的装置和技术。
        方法  根据实际运用场景,得到装置的设计要求,设计了一款地下自密封压力注灌装置,该装置中通过压力自密封结构在工作中能够保证水肥不向地表溢流。应用此装置设计单因素和多因素试验,选取土壤类型、供水压力和注水深度为影响因素,以注入量为目标进行试验,运用Origin软件进行单因素试验分析,运用Design-Expert软件进行多因素试验分析并建立回归模型,探究装置实际工作下适宜参数及各参数对注入量的影响。通过实际试验与得到的回归模型公式对比,验证模型的可靠性。
        结果  单因素试验中,注入量随着供水压力的增大而增大,随着注水深度的增大而减小。多因素试验中,对回归模型进行优化分析,得到常见土壤的适宜供水压力为287 kPa,适宜注水深度为30 cm,注入量的预测值和实际值偏差小于5%,模型结果可靠。
        结论  该装置可以满足最初的设计需求,实现了有效对果树地下根部的直接灌溉,同时保证水肥不会向地表溢出。本研究的模型验证为后续该类装置实际运用和继续开发,以及地下压力注灌技术的发展提供了数据支撑。

       

      Abstract:
        Objective  In forest and fruit irrigation operations, the commonly used water-saving irrigation methods, such as dropper and sprinkler irrigation, are easy to produce evaporation loss and salinization because the water and fertilizer are poured on the surface. It is urgent to effectively and directly irrigate the underground roots of fruit trees and ensure the water and fertilizer not overflow to the surface.
        Method  According to the actual application scenario, the design requirements of the device were analyzed, and an underground self-sealing pressure irrigation device was designed, which can guarantee the pressure self-sealing structure to the surface. Single-factor and multi-factor test on this device was designed. Soil type, water supply pressure and injection depth were selected as the influencing factors, with the target of the injection amount. Origin software was used for single-factor test analysis. Design-Expert software was used for multi-factor test analysis, and a regression model was established. The actual appropriate parameters and the parameters of the influence of injection amount were explored. The reliability of the model was verified by comparing the actual trial with the obtained regression model formula.
        Result  The single-factor test results showed that the injection amount increased with the water supply pressure, and decreased with the water injection depth. In multi-factor test, the regression model was optimized, and the suitable water supply pressure of the common soil was 287 kPa, the suitable water injection depth was30 cm, and the deviation between predicted value and the actual value of the injection amount was less than 5%. The parameter optimization results were reliable.
        Conclusion  The device can meet the initial design requirements, realize the effective direct irrigation of fruit trees underground root, and ensure no overflow to the surface. The reliability of the model can support data for the subsequent device practical application, further development, and the development of underground pressure irrigation technology.

       

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