马铃薯气培系统的监测与控制

I. Idris, Muhammad Ikhsan Sani
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引用次数: 25

摘要

气培法是一种在有条件的空气环境中栽培植物而不使用土壤或水介质的方法。这种方法将植物悬浮在封闭或半封闭的环境(室)中,向植物悬垂的根和下部茎喷洒富含营养的溶液。在这种情况下,受控环境对改善植物的发育阶段、健康和生长具有很强的潜力。近十年来,为了获得马铃薯无病种子和无农药的栽培环境,气培系统在马铃薯种植中得到了广泛的应用。预测气培法可以降低马铃薯种植户的经营成本,提高产量。设计了一套水分和养分分布监测和控制系统,以支持气培系统在种薯生产中的最佳应用。该监测系统主要用于监测燃烧室的温度、湿度等参数。同时,利用控制系统对执行器进行送水和养分的管理。温度和湿度数据将显示在LCD上,并传输到计算机上,以便于对植物生长室进行更方便的监控。整个系统的设计和实现是通过使用键盘接收用户自定义的设定值。微控制器系统将自动调节分配水(泵和喷嘴)和分配营养(超声波雾机,风扇和泵)的执行器。各点的pH测量结果表明,营养物(pH = 5.8)在生长室内扩散成功。在水分输送和养分输送过程中,生长室的平均测量温度和湿度分别为19.6°C和83.3% RH,满足马铃薯生产所需的环境要求。该系统在印度尼西亚西爪哇省伦邦市农业部蔬菜研究所(Balitsa)的马铃薯种子温室进行了测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monitoring and control of aeroponic growing system for potato production
Aeroponic is the method of cultivating plants inside a conditioned air environment without the use of soil or water medium. This method grows plants suspended in a closed or semi-closed environment (chamber) by spraying the plant's dangling roots and lower stems with nutrient-rich solution. Under this circumstances, controlled environment has a strong potential to improve plants' developmental stages, health, and growth. In the recent decade, aeroponic system is applied intensively for the purpose of growing potato in order to produce disease-free potato seed and in order to have a pesticides-free cultivation environment. It is also predicted that the aeroponic method will be able to lower potato farmers' cost of operation and increase their yields. A monitoring and control system intended for water and nutrients distribution has been designed to support the optimal application of aeroponic cultivation system for seed-potatoes production. The monitoring system was used to monitor the chamber's parameters such as temperature and humidity. meanwhile, the control system was used to manage actuators in delivering water and nutrients. Temperature and humidity data will be displayed on the LCD and be transmitted to computer to facilitate easier monitoring on the plant growing chamber. The overall system has been designed and implemented to receive user-defined setting points by using the keypad. Microcontroller system will automatically regulate actuators for distribution of water (pump and nozzle) and distribution of nutrients (ultrasonic mist maker, fan, and pump). The pH measurement results at various points showed that the nutrient (pH = 5.8) were successfully spread inside the growing chamber. The average measured-temperature and humidity of growing chamber during the water and nutrients delivery process are 19.6 °C and 83.3% RH, respectively, which meet the environmental requirements for potatoes to grow productively. The system was tested in potato seed greenhouse at Vegetables Research Institute (Balitsa), Ministry of Agriculture, in Lembang, West Java, Indonesia.
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