Automation and monitoring system of drying parameters in cabinet dryer using Arduino (temperature and humidity)

This research aims to design and fabrication a temperature-humidity monitoring system in cabinet dryer, using DHT 22 sensor. This monitoring system is designed to be accessible by android applications so that drying parameters can be monitored anytime and anywhere. The research method used was the d...

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Hauptverfasser:	Rahayuningtyas, Ari, Sagita, Diang, Susanti, Novita Dwi
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cabinets Cassava Deviation Drying Humidity Measuring instruments Moisture content Monitoring Monitoring systems Parameters Sensors Thermocouples
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creator	Rahayuningtyas, Ari Sagita, Diang Susanti, Novita Dwi
description	This research aims to design and fabrication a temperature-humidity monitoring system in cabinet dryer, using DHT 22 sensor. This monitoring system is designed to be accessible by android applications so that drying parameters can be monitored anytime and anywhere. The research method used was the design of hardware and software. Based on the test and the results of the DHT22 sensor readings compared with standard measuring instruments (PT100 type thermocouple), the error value is 0.5 and the deviation is 0.0. The repeatability test results show that the average temperature taken every 30 minutes 10 times is 55.79 (°C) with a deviation of 0.07 (°C). A small error value is indicating that the sensor has high accuracy and a small deviation value indicates that the sensor has a high level of precision. The water content of the tested product (cassava slices) changed from 68.92% to 15% during 7 hours of drying. The measurement result parameter data has been able to be displayed properly on Android devices via the internet network.
doi_str_mv	10.1063/5.0114374
format	Conference Proceeding
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This monitoring system is designed to be accessible by android applications so that drying parameters can be monitored anytime and anywhere. The research method used was the design of hardware and software. Based on the test and the results of the DHT22 sensor readings compared with standard measuring instruments (PT100 type thermocouple), the error value is 0.5 and the deviation is 0.0. The repeatability test results show that the average temperature taken every 30 minutes 10 times is 55.79 (°C) with a deviation of 0.07 (°C). A small error value is indicating that the sensor has high accuracy and a small deviation value indicates that the sensor has a high level of precision. The water content of the tested product (cassava slices) changed from 68.92% to 15% during 7 hours of drying. 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This monitoring system is designed to be accessible by android applications so that drying parameters can be monitored anytime and anywhere. The research method used was the design of hardware and software. Based on the test and the results of the DHT22 sensor readings compared with standard measuring instruments (PT100 type thermocouple), the error value is 0.5 and the deviation is 0.0. The repeatability test results show that the average temperature taken every 30 minutes 10 times is 55.79 (°C) with a deviation of 0.07 (°C). A small error value is indicating that the sensor has high accuracy and a small deviation value indicates that the sensor has a high level of precision. The water content of the tested product (cassava slices) changed from 68.92% to 15% during 7 hours of drying. 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source	AIP Journals Complete
subjects	Cabinets Cassava Deviation Drying Humidity Measuring instruments Moisture content Monitoring Monitoring systems Parameters Sensors Thermocouples
title	Automation and monitoring system of drying parameters in cabinet dryer using Arduino (temperature and humidity)
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