Design of Combustible Gas Automatic Detection and Alarm System
Science Journal of Energy Engineering
Volume 7, Issue 3, September 2019, Pages: 45-53
Received: Sep. 18, 2019; Accepted: Oct. 9, 2019; Published: Oct. 20, 2019
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Yunfei Zhang, Campus Shuozhou, North University of China, Shuozhou, China
Zhengguang Liu, College of Water Resources and Architectural Engineering, Northwest A&F University, Yangling, China
Qiaoyu Liu, College of Water Resources and Architectural Engineering, Northwest A&F University, Yangling, China
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With the social development, gas has been widely applied to various aspects of social life. However, the combustible gas has brought us great convenience, but also there is a considerable risk. Based on this, we designed a kind of "prevention" as the characteristics of the combustible gas automatic detection and alarm systems. The system is the choice of technology is mature and low-cost entry-level 52 series microcontroller as the control center, the whole system is divided into classification sensor detection, alarm distinguishes between sound and light alarm, force control bodies of three parts. The system will detect concentrations of flammable gases, scientific classification, for different grades of police intelligence, the appropriate device driver to send a loud sound and light alarm signal. When you reach the highest level but no one to lift the danger, the system will automatically cut off the gas supply to open the ventilation exhaust and other devices to prevent the occurrence of major accidents, to achieve "prevention first, combining prevention and control" of the human and automatic alarm control system. The automatic alarm control system available in the field of gas alarm has been widely used, it has certain extensibility, compatibility, and stability.
Microcontroller of AT89S52, Gas Test, Detecting Alarm
To cite this article
Yunfei Zhang, Zhengguang Liu, Qiaoyu Liu, Design of Combustible Gas Automatic Detection and Alarm System, Science Journal of Energy Engineering. Vol. 7, No. 3, 2019, pp. 45-53. doi: 10.11648/j.sjee.20190703.13
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This article is an open access article distributed under the Creative Commons Attribution License ( which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Ramya V, Palaniappan B. Embedded system for Hazardous Gas detection and Alerting [J]. International Journal of Distributed and Parallel Systems (IJDPS), 2012, 3 (3): 287-300.
Z. Zhao, J. Wang and Y. Liu, "User Electricity Behavior Analysis Based on K-Means Plus Clustering Algorithm," 2017 International Conference on Computer Technology, Electronics and Communication (ICCTEC), Dalian, China, 2017, pp. 484-487. doi: 10.1109/ICCTEC.2017.00111.
Shrivastava A, Prabhaker R, Kumar R, et al. GSM based gas leakage detection system [J]. International Journal of Emerging Trends in Electrical and Electronics (IJETEE-ISSN: 2320-9569), 2013, 3 (2).
Amin M M, Nugratama M A A, Maseleno A, et al. Design of cigarette disposal blower and automatic freshner using mq-5 sensor based on atmega 8535 microcontroller [J]. International Journal of Engineering & Technology, 2018, 7 (3): 1108-1113.
Imade S, Rajmanes P, Gavali A, et al. Gas leakage detection and smart alerting system using IOT [J]. International Journal of Innovative research & studies, 2018, 2 (II).
Das S, Sarkar C K, Roy S. Development of integrated microsystem for hydrogen gas detection [J]. IET Circuits, Devices & Systems, 2018, 12 (4): 453-459.
Jun-Xian F U, Tan C C, Liu Y L, et al. A Design of Automatic Combustible Gas Detection and Alarm Intelligent Control System [J]. Journal of Zaozhuang University, 2013.
Yaozhen H, Hairong X, Weigang P, et al. Design and Realization of a New Combustible Gas Alarm System [C]// International Conference on Electrical & Control Engineering. 2010.
Zhang Yanjun, Yang Xiaodong, Liu Yi, Zheng Dayuan, Bi Shujun. Research on the Frame of Intelligent Inspection Platform Based on Spatio-temporal Data. Computer & Digital Engineering [J], 2019, 47 (03): 616-619+637.
Famuyiro S. Use of combustible gas detectors in Safety Instrumented Systems – A practical application case study [J]. Journal of Loss Prevention in the Process Industries, 2018, 54: 333-339.
Bozek A, Driscoll T, Miller J D, et al. The Use of Combustible Gas Detection In Hazardous Locations: Additional Safety Precautions Around Flammable Gas Or Vapors [J]. IEEE Industry Applications Magazine, 2018, PP (99): 1-1.
Anishchanka Y V, Loktionov E Y, Telekh V D. Investigation of minimum laser ignition energies of combustible gas mixtures [J]. Journal of Physics Conference Series, 2018, 1115: 042020.
Shebeko A Y, Shebeko Y N, Zuban A V, et al. Experimental Investigation of the Ignition of Combustible Gas Mixtures by Friction Sparks [J]. Combustion Explosion & Shock Waves, 2018, 54 (3): 264-274.
Di Y, Qiang X, Shu X, et al. Combustible gas production during catalytic pyrolysis of municipal solid waste [J]. Energy Sources, 2017, 39 (3): 277-283.
Sun E. Internet of Things Based Combustible Ice Safety Monitoring System Framework [C]// 2017.
L. Yi and W. Yi, "Decision Tree Model in the Diagnosis of Breast Cancer," 2017 International Conference on Computer Technology, Electronics and Communication (ICCTEC), Dalian, China, 2017, pp. 176-179. doi: 10.1109/ICCTEC.2017.00046.
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