Biotoilizer automatic system prototype : automatic fertilization system integrated with bio-toilet based on Internet of Things (IOT)

Ira Erdiandini, Rizamel Rizamel, Angelic Kusuma Nagari, Ahmad Dzakiyuddin Muhaimin, Lusi Lusi
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Abstract

Human urine is one of the primary wastes in urban areas, which has not been maximally processed and utilized until now. Human urine can be processed into biofertilizer with special processing procedures to minimize the negative impact of using urine as fertilizer and avoid odor, dirt, and contamination of pathogenic bacteria in the processing process. This prototype aims to design a Biotoilizer Automatic System with processing human urine into a biofertilizer and an automatic fertilization system. This system is equipped with a DC water pump, pH sensor, YL-69 sensor, ultrasonic sensor, real-time clock (RTC) NodeMCU microcontroller, and Arduino Uno. The method used in this research is an experimental method by designing technical designs and making prototypes of an Internet of Things (IoT) based automatic fertilization system that utilizes solar panels and is integrated with Bio toilets and designing software. The system's test results can process urine into a biofertilizer and fertilize automatically 95% based on regulated conditions and can be monitored with an application via a smartphone
生物厕所自动系统原型:基于物联网的生物厕所自动施肥系统
人尿是城市生活中的主要垃圾之一,目前还没有得到最大限度的处理和利用。人尿可以通过特殊的处理程序加工成生物肥料,以尽量减少尿液作为肥料的负面影响,并避免在处理过程中产生异味、污垢和致病菌的污染。这个原型旨在设计一个生物厕所自动系统,将人类尿液加工成生物肥料和自动施肥系统。该系统配备了直流水泵、pH传感器、YL-69传感器、超声波传感器、实时时钟(RTC) NodeMCU微控制器和Arduino Uno。本次研究采用的方法是通过设计技术设计和制作与生物厕所和设计软件相结合的基于物联网(IoT)的自动施肥系统的原型的实验方法。该系统的测试结果可以将尿液转化为生物肥料,并根据规定条件自动施肥95%,并且可以通过智能手机应用程序进行监控
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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