Designing of an Embedded system for Wireless Sensor Network for Hazardous Gas leakage control for industrial Application

Prashant V. Mane Deshmukh*, D. M. Adat**, B. P. Ladgaonakar***, S. K. Tilekar****
*-** Assistant Professor, Post-graduate Department of Electronics, Shankarrao Mohite Mahavidyalaya, Akluj, Maharashtra, India.
*** Professor and Head, Post-graduate Department of Electronics, Shankarrao Mohite Mahavidyalaya, Akluj, Maharashtra, India.
**** Associate Professor, Post-graduate Department of Electronics, Shankarrao Mohite Mahavidyalaya, Akluj, Maharashtra, India.
Periodicity:January - June'2018
DOI : https://doi.org/10.26634/jes.6.2.14763

Abstract

The environmental pollution is a serious problem, which is caused due to the leakage of toxic gasses at the time of transportation, storage, and during industrial processes of these gases. In industry, different types of hazardous gases are processed, stored, and transported through pipeline. The leakage of such pipeline occurs at any catastrophic accident, which may cause danger to the society as well as the environment. The gas pipeline may spread wide within the industry. Considering such facts, it is proposed to develop Wireless Sensor Network to detect, monitor, and control the leakage of gases. The Wireless Sensor Network (WSN) is a challenging technology in the field of Industrial sectors. Recently, it is used to monitor agricultural, industrial, environmental, and medical parameters. WSN is the network of systematically distributed sensor nodes to collaboratively collect information from physical world. The present research work is carried out to detect, monitor, and control the hazardous gas Hydrogen Sulfide in industrial transportation system, to avoid catastrophic accidents as well as to reduce the effect on environment. For this purpose, sensor nodes are wired about advanced PIC 18F4550 microcontroller along with sensing and signal conditioning capabilities. The IEEE 802.15.4 slandered based ZigBee device is deployed for wireless communication. On the other hand, the control action is carried out through Coordinator Node, which is capable with electromechanical action to close the main valve of the gas source.

Keywords

Leakage, Signal Conditioning, IEEE 802.15.4.

How to Cite this Article?

Mane-Deshmukh P. V., Adat, M., Ladgaonkar, B. P., and Tilekar, S. K. (2018). Designing of an Embedded system for Wireless Sensor Network for Hazardous Gas leakage control for industrial Application, i-manager's Journal on Embedded Systems, 6(2), 1-9. https://doi.org/10.26634/jes.6.2.14763

References

[1]. Adat, D. M., Mane-Deshmukh, P. V., Tilekar, S. K., & Ladgaonkar, B. P. (2017). Smart fusion based cSoC for Wireless Sensor Network for agricultural applications. International Journal of Scientific Research in Science, Engineering and Technology, 3(5), 161-168.
[2]. Chou, C. H. S. J. (2003). Hydrogen Sulfide: Human Health Aspects. World Health Organization Geneva, 2003.
[3]. Datasheet of MQ-135.
[4]. Datasheet of MQ-136.
[5]. Gungor, V. C., & Hancke, G. P. (2009). Industrial Wireless Sensor Networks: Challenges, design principles, and technical approaches. IEEE Transactions on Industrial Electronics, 56 (10), 4258-4265.
[6]. Hilton, M. G., & Archer, D. B., (1988). Anaerobic digestion of a sulfate-rich molasses wastewater: Inhibition of hydrogen sulfide production. Biotechnology and Bioengineering, 31, 885-888.
[7]. Kumbhar, N. N., & Mane-Deshmukh, P. V. (2017). Smart door locking system using wireless communication technology. International Journal for Research in Applied Science & Engineering Technology, 5(8), 507-512.
[8]. Kumbhar, N. N., & Mane-Deshmukh, P. V. (2018). Designing and development of PIC 18f4550 based wireless natural light intensity control system for polyhouse for agricultural applications. International Journal of Scientific Research in Science, Engineering and Technology, 4 (1), 1373-1377.
[9]. Lim, E., Mbowe, O., Lee, A. S. W., Davis, J. (2016). Effect of environmental exposure to Hydrogen Sulfide on central nervous system and respiratory function: A systematic review of human studies. International Journal of Occupational and Environmental Health, 22(1), 80-90.
[10]. Mane-Deshmukh, P. V., Ladgaonkar, B. P.,Pathan, S. C., & Shaikh, S. S. (2013). Microcontroller PIC 18f4550 based wireless sensor node to monitor industrial environmental parameters. International Journal of Advanced Research in Computer Science and Software Engineering, 3(10), 943-950.
[11]. Mane-Deshmukh, P. V., Pathan, S. C., Chavan, S. V., Tilekar, S. K., & Ladgaonkar, B. P. (2016). Wireless Sensor Network for monitoring of air pollution near industrial sector. International Journal of Advanced Research in Computer Science and Software Engineering, 6(6), 638- 645.
[12]. Mane-Deshmukh, P. V., Adat, D. M., Ladgaonakar, B. P., & Tilekar, S. K. (2018). Monitoring and control of gas leakages of industrial sector using PIC 18F4550, ZigBee and Wireless Sensor Actuator Network. i-manager’s Journal on Electronics Engineering, 8(3), 5-13.
[13]. Nageswararao, J., & Murthy, K. G. (2017). Wireless weather monitor using internet of things. i-manager's Journal on Embedded Systems, 6(1), 30-34.
[14]. Priyanka, N., & Shinde, V. D. (2015). Design and development of ARM9 based embedded web server. Int. Journal of Engineering Research and Applications, 5(8), 50-53.
[15]. Quadri, S. A. I., & Sathish, P. (2018). IoT based home automation and surveillance system. 2017 International Conference on Intelligent Computing and Control Systems (ICICCS).
[16]. Simic, M., Stojanovic, G. M., Manjakkal, L., & Zaraska, K. (2017). Multi-sensor system for remote th environmental (air and water) quality monitoring. 24 Telecommunications Forum (TELFOR).
[17]. Souhir, B., Sami, G., Hekmet S., & Abdennaceur K. (2015). Air pollution monitoring system using LabVIEW. th Systems, Signals & Devices (SSD), 2015 12 International Multi-Conference on Systems, Signals & Devices (SSD).
[18]. Tilekar, S. K., Mane-Deshmukh, P. V., Ladgaonkar, B. P., & Chavan, S. V. (2017). Synthesis of reconfigurable embedded system to measure temperature compensated dissolved oxygen concentration. International Journal of Advanced Research in Computer Science and Software Engineering, 7(5), 592-597.
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