Development Of Monitoring System In Energy Harvesting From Burning Process Via IoT Based System

Krishnan, Nagen (2018) Development Of Monitoring System In Energy Harvesting From Burning Process Via IoT Based System. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

This product mainly develop for multiple purpose usage such as during outdoor activities use,during disaster and when there is power outage happens.The objective of this project is to understand about energy harvesting by using the TEG module through burning process and developing a product that serve the community needs in various ventures.Moreover,a monitoring system integrated with IoT based system is to be prior for the purpose to collect variety of data in terms of temperature,voltage that produce by TEG based on the material for a span of time ,smoke parameter that been filter current value and weight of material.Besides that as mention earlier,the method use in this project is by harvesting the heat energy and convert it to electrical energy by burning process,and added with a monitoring system that help to identify the output based on the variable gain from the sensors that fixed such as voltage,current,temperature weight and smoke.As a result,all the data that is collected,will be save in a cloud system that ease us to analyze and produce various analytical graph.Furthermore, Arduino IDE was used to write the program of the system while MIT App inventor was used to develop the Android apps.Blynk server is use for store the data and to produce different analytical graph such as voltage and power graph.The raw data that are collected are stored in the Blynk cloud and that data are in descriptive value that can determine types of graph that need to be analyze.Thus,different biomass material are use in this project,and charcoal are selected as best material that produce high power emission.Hence to prove the statement, a regression analysis are conducted and a strong positive correlation regression line was produced.

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