Smart LPG Leakage Monitoring and Control System Using Gas Sensor (MQ-X), AWS IoT, and ESP Module

International Journal of Applied Engineering and Management Letters Pub Date : 2024-02-28 DOI:10.47992/ijaeml.2581.7000.0214

Sudipto Chakraborty, P. S. Aithal

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Abstract

Purpose: Nowadays, LPG is used in almost every kitchen for cooking. It has lots of advantages over other cooking fuels. We need to maintain compliance when we cook using it. The gas flows through a couple of equipment like a regulator, pipe, knob, and burner. If equipment got damaged or the regulator was kept on after cooking, it emitted the gas. This event is dangerous and destructive. So, once it is emitted, it should be detected immediately, and emissions should be stopped. There are several sensors available to detect the gas. We demonstrate using this sensor to build an intelligent gas monitoring system here. When the gas is detected, we regulate the valve and stop the gas emission using the control mechanism. Design/Methodology: There are two approaches to designing the LPG detector for the researcher. One approach is to create from scratch, using the raw sensor, creating the schematics, and then building the PCB. After that, the components are assembled and tested in a natural environment. Finally, it would be best if we pack within a suitable enclosure. It takes time to make a testable product. The other approach is for rapid prototyping. Here, we followed the fast procedure. To minimize the hardware overhead, we purchased one complete gas detector system, which is available in the market, and then we added our intelligence to it. Findings/Result: We tested the prototype in a natural environment. The result was found as expected and very promising. We inject the LPG into the sensor. After a couple of seconds, the built-in relay got energized. The ESP module sends the message to the predefined mobile number. Originality/Value: Several projects have already been done to detect LPG leakage. Most of the project monitors gas; it produces an alarm if leakage happens. But here we added a couple of facilities. One is when gas leakage is detected instantly; it triggers the close of the regulator valve. The second one is the incident time, which will be uploaded to the cloud, not local device memory. It will help for audit purposes. Once a leak is detected, we can send the message to the What’s App. These features provide value to the user. Type of Paper: Experimental-based Research.

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使用气体传感器 (MQ-X)、AWS 物联网和 ESP 模块的智能液化石油气泄漏监测和控制系统

目的：如今，几乎每个厨房都使用液化石油气做饭。与其他烹饪燃料相比，它有很多优点。使用它做饭时，我们需要遵守相关规定。燃气流经调节器、管道、旋钮和燃烧器等设备。如果设备损坏或烹饪后调节器一直开着，就会释放出煤气。这种情况具有危险性和破坏性。因此，一旦有气体排出，就应立即检测出来，并停止排放。有几种传感器可以检测煤气。我们在此演示如何使用这种传感器来构建智能气体监测系统。当检测到气体时，我们通过控制机制调节阀门并停止气体排放。设计/方法：研究人员设计液化石油气探测器有两种方法。一种方法是从零开始，使用原始传感器，创建原理图，然后构建 PCB。之后，在自然环境中组装元件并进行测试。最后，最好将其封装在一个合适的外壳内。制作可测试的产品需要时间。另一种方法是快速原型制作。在这里，我们遵循快速程序。为了最大限度地减少硬件开销，我们购买了一套完整的气体检测系统，这套系统在市场上可以买到，然后我们在其中加入了我们的智能。结果/成果：我们在自然环境中测试了原型。结果与预期相符，非常有希望。我们将液化石油气注入传感器。几秒钟后，内置继电器通电。ESP 模块向预定义的手机号码发送信息。原创性/价值：已有多个项目用于检测液化石油气泄漏。大多数项目都对气体进行监测；如果发生泄漏，就会发出警报。但在这里，我们增加了几项功能。其一是当气体泄漏被立即检测到时，它会触发调节阀的关闭。第二个是事件发生时间，它将被上传到云端，而不是本地设备内存。这将有助于审计。一旦检测到泄漏，我们就可以向 What's App 发送信息。这些功能为用户提供了价值：基于实验的研究。

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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International Journal of Applied Engineering and Management Letters

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