Enhanced Smart Water Meter Efficiency Based on Mounting Position Selection and Extended Battery Life Time

Khaleel Agail Mohamed, Mark George Munier, P. William, Sami A. Nagar, Ali. M. A. Ibrahim
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引用次数: 3

Abstract

Sudan is rich with different water resources, however there is no control on the water consumption in addition; the water bill is attached to the electric bill and is fixed relative to the geographical location of the customer, nondependent on the consumption rates. The aim of this project is to design and implement an efficient Smart Automatic Water Meter System by selecting the best meter mounting position for accurate measurement, monitoring water consumption, displaying the balance and controlling the water flow of the customer according to their balance received from the designed billing, beside extending the battery lifetime of the water metering system by using isolated mains electricity and a standby battery. The best mounting position was achieved accuracy of 97% for the meter at the horizontal position. The system was developed using the Arduino Uno microcontroller to monitor and control the consumption process through utilizing a solenoid valve according to the balance received from the GUI, which was developed using MATLAB software. Data was transferred to the meter through the RF module. Finally a circuit was developed to increase the battery lifetime of the meter.
基于安装位置选择和延长电池寿命,提高智能水表效率
苏丹水资源丰富多样,但对水资源消耗缺乏控制;水费帐单附在电费帐单上,与客户的地理位置有关,水费帐单是固定的,而与消费率无关。该项目的目的是设计和实施一个高效的智能自动水表系统,通过选择最佳的水表安装位置进行精确测量,监测用水量,显示平衡并根据客户从设计的账单收到的余额控制水流量,同时通过使用隔离的主电源和备用电池延长水表系统的电池寿命。在水平位置,仪表的最佳安装位置达到97%的精度。系统采用Arduino Uno单片机开发,根据从GUI接收到的余额,利用电磁阀监控消费过程,使用MATLAB软件开发。数据通过射频模块传输到仪表。最后,开发了一种电路来增加电表的电池寿命。
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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