YÜKSEK GERİLİM LABORATUVARLARI İÇİN IoT TABANLI HAVA İSTASYONU TASARIMI VE UYGULAMASI

Mühendislik bilimleri ve tasarım dergisi Pub Date : 2023-09-28 DOI:10.21923/jesd.1288951

Celal Fadıl KUMRU, Muzaffer Samed VURAL

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Abstract

This study presents the design and implementation of an internet of things (IoT) based weather station for high voltage laboratories using the Raspberry Pi 4 Model B and two BME680 sensors. The weather station calculates the relative air density and humidity correction coefficients using the temperature, pressure, and relative humidity data obtained from the sensors. The study investigates the effect of the constant and real-time calculation of these coefficients on the measurement of AC, DC and lightning breakdown voltage using spherical electrodes. Measurements were performed within a laboratory setting for a period of 12 hours, and the obtained results were subsequently compared. The findings reveal that the real time calculation of the correction coefficients leads to a reduction in measurement errors. The study also includes the development of a web-based user interface using HTML and CSS, which is hosted on the Raspberry Pi 4 using the Flask web framework. This interface allows users to access the weather station data from any device with a web browser and provides real-time monitoring of the current coefficients, as well as the capability to calculate actual parameters online.

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基于物联网的高压实验室空气站设计与实施

本研究介绍了使用树莓派4 B型和两个BME680传感器为高压实验室设计和实现基于物联网(IoT)的气象站。气象站利用从传感器获得的温度、压力和相对湿度数据计算相对空气密度和湿度校正系数。研究了这些系数的恒定和实时计算对球形电极测量交流、直流和雷电击穿电压的影响。测量在实验室环境中进行了12小时，随后比较了所获得的结果。研究结果表明，实时计算校正系数可以减小测量误差。该研究还包括使用HTML和CSS开发基于web的用户界面，该界面使用Flask web框架托管在Raspberry Pi 4上。该界面允许用户通过网络浏览器从任何设备访问气象站数据，并提供当前系数的实时监测，以及在线计算实际参数的能力。

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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Mühendislik bilimleri ve tasarım dergisi

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