CAJ | 학술논문

现有生产型日光温室灌溉普遍采用沟灌或直接利用管道进行管道输水灌溉，营养施用为复合肥随水冲施方式，缺乏精确调控手段，肥水利用率低、环境污染严重。针对这一问题，设计了一种水肥一体灌溉循环利用系统，采用地面挖沟、沟内放置袋装基质进行无土栽培的种植方法；灌溉使用水肥一体滴灌方式；构建回收管路，收集过量的水肥并实现循环利用。为了检验系统性能，在同等条件下，进行了对比试验。结果表明，与传统土栽水肥不循环模式相比，水肥一体循环循环系统用水量是传统土栽模式的69.4%，水分利用效率是传统土栽模式的1.92倍。利用该系统不但避免了对环境的污染，提高了水分利用效率，而且实现了节水、节肥的目的。
현유생산형일광온실관개보편채용구관혹직접이용관도진행관도수수관개，영양시용위복합비수수충시방식，결핍정학조공수단，비수이용솔저、배경오염엄중。침대저일문제，설계료일충수비일체관개순배이용계통，채용지면알구、구내방치대장기질진행무토재배적충식방법；관개사용수비일체적관방식；구건회수관로，수집과량적수비병실현순배이용。위료검험계통성능，재동등조건하，진행료대비시험。결과표명，여전통토재수비불순배모식상비，수비일체순배순배계통용수량시전통토재모식적69.4%，수분이용효솔시전통토재모식적1.92배。이용해계통불단피면료대배경적오염，제고료수분이용효솔，이차실현료절수、절비적목적。
In recent years, horticulture industry has been rapidly developed in China. The total area of cultivation was about 3.79 million ha by the end of 2012, of which 25%was solar greenhouse. But the means of controlling precise water and fertilizer uses are lacking in current solar greenhouse, and the use of water and fertilizers are often excessive resulting in low rate of resource utilization. This not only causes pollutions of environment by excessive fertilizer application and potential runoff/leaching to the surface/ground water systems but also wastes valuable resources. In order to solve the problems, integrated water and fertilization irrigation circulatory system was investigated in this research. <br> Unlike the traditional soil planting pattern in greenhouses from which crops are planted on the ridges of the ground, the newly designed circulatory system was to dig a ditch from south to north in the greenhouse. The width of the ditch was 30-35 cm, and the depth of the ditch was 20-25 cm. There was a 5-10 cm drop from the south to the north. The growth substrate was bagged and then was placed in the ditches. In order to be isolated from the outside soil, the substrate was packed by bags. There were some holes (2 cm, dia.) on the bags so that crops can be planted into the substrate though these holes. There was a soft tube with PVC or PP (2 cm dia.) at the bottom of bags, also it had some other holes (0.2 cm in diameter) through which excess water or nutrient solution can penetrated into the substrate. All of these tubes were connected to a recycle pipe, which led to a drainage tank. The drainage tank was a container which store water or nutrient solution from the recycle pipe, and the horizontal position of drainage tank should be lower than recycle pipe. <br> In order to achieve the recycling, the recycling system of water and nutrient were constructed, a tube of 2 cm diameter with PVC or PP material laying the bottom of substrate bag. A pump was placed in the drainage tank, and the pump was drawn water into a mixing tank until the water level of the drainage tank reaches the set position. The mixing tank contained nutrient solution that was used for irrigation. The water and fertilizers can be mixed according to the desired ratio. The nutrient solution can be adjusted in real time and it was transferred to the crop to provide water and nutrients through irrigation pipes using drip irrigation. <br> An experiment was design to verify the effectiveness of this system. The system was compared with traditional ridge soil planting under the same conditions. The result showed that water consumption of the newly designed recycling system was 69.4%of that in the traditional soil planting pattern. The water use efficiency of the system was 1.92 times higher than that in the traditional soil planting pattern.