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IOT Based Gas Pressure Detection for LPG with Real Time No SQL Database

Danish Saikia, Abdul Waris, Bhumika Baruah and Bhabesh Nath
Additional contact information
Danish Saikia: Tezpur University, Department of Computer Science and Engineering
Abdul Waris: Tezpur University, Department of Computer Science and Engineering
Bhumika Baruah: Tezpur University, Department of Computer Science and Engineering
Bhabesh Nath: Tezpur University, Department of Computer Science and Engineering

A chapter in New Trends in Computational Vision and Bio-inspired Computing, 2020, pp 747-751 from Springer

Abstract: Abstract As the majority of the people uses Liquefied Petroleum Gas (LPG) as a fuel for cooking, but the technology applied in this field is very less. A major issue in usage of LPG cylinder is that the cylinder gets emptied and we are unaware when it is going to finish. Liquefied petroleum gas is a flammable gas, which has the potential to create a hazard. Therefore it is important that the properties and safe handling of LPG are understood and applied in the domestic and commercial/industrial situations. The proposed system is aimed at providing a method that constantly monitors the gas pressure with the help of a transducer (Jarašūniene. Transport 22: 61–67, 2007) and sense gas leakage with the help of mq2 sensor (Om Prasad. “Event-driven information integration for the digital oilfield.” In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 2012). This data is made available in real time through real time feeds over the internet. Mongo DB [11] database can be used for storing the data that is generated by the transducer and mq2 sensor. The transducer monitors, and detected the gas pressure and sends an alert to the client when 20% of gas is left inside the cylinder through IFTTT [13] (web sms, mail services) server. The device also raises an emergency alarm through a buzzer. Based on the real time data feed connected to Mongo DB. Data analysis can be done in future on usage of LPG cylinder.

Keywords: IOT; MQTT; Kitchen cylinder; Gas pressure monitoring; IOT applications; Smart gas regulator; Node red (search for similar items in EconPapers)
Date: 2020
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DOI: 10.1007/978-3-030-41862-5_74

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