Browse > Article
http://dx.doi.org/10.15207/JKCS.2022.13.04.053

Development of Wire/Wireless Communication Modules using Environmental Sensor Modules for LNG Storage Tanks  

Park, Byong Jin (Electronics & Information Communications Engineering, TongMyong University)
Kim, Min Sung (College of Artificial Intelligence Convergence, TongMyong University)
Publication Information
Journal of the Korea Convergence Society / v.13, no.4, 2022 , pp. 53-61 More about this Journal
Abstract
Accidents are steadily occurring due to machine defects and carelessness during LNG storage operations. In previous studies, an environmental sensor module capable of measuring pressure, temperature, gas concentration, and flow to detect danger in advance was developed and the response speed according to the amount of leaked gas was measured. This paper proposes the development of a wired and wireless communication module that transmits data measured by the environmental sensor module to embedded devices connected to wired and wireless networks of SPI, UART, and LTE. First, a data communication module capable of interworking with an environmental sensor is designed. Design a protocol between devices in the Local Control Part and wired and wireless protocols in the Local Control Part and Remote Control Part. Ethernet, WiFi, and LTE communication modules were designed, and UART and SPI channels that can be linked with embedded controllers were designed. As a result, it was confirmed through a UI (User Interface) that each embedded device transmits data measured by the environmental sensor module while simultaneously communicating on a wired and wireless basis.
Keywords
Environment Sensor Module; LNG Storage Tank; Wire/Wiress Communications; Embedded;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 S. K. Yun. (2015). Thermal Analysis of LNG Storage Tank for LNG Bunkering System. Journal of Advanced Marine Engineering and Technology, 39(9), 876-880.   DOI
2 Y. S. Park. (2019. July). Global LNG supply and demand "Neul Jump" by 2023: BNEF announces global LNG forecast report_surge in LNG supply this year... Demand will increase from 2022. Electric Power, 13, 52-53.
3 S. L. Lee, J. W. Lee & G. WH. Kim. (2019). Forecasting the Medium Term Demand of LNG for Power Generation under the Energy Transition Policy in South Korea. Journal of Climate Change Research, 10(1), 47-54. DOI : 10.15531/ksccr.2019.10.1.47   DOI
4 A. Lee, S. O. Song, & J. H. Yu. (2021). The Study of Fiber Optic Cable for LNG Tank Leakage Monitoring. Proceeding of Conference of The Korean Institute of Gas, 149-149.
5 S. Kumar, H. T. Kwon, K. H. Choi, Wonsub. Lim, J. H. Cho, K. J. Tak, I. Moon et al. (2011). LNG: An Eco-friendly Cryogenic Fuel for Sustainable Development. Applied Energy, 88(12), 4264-4273.   DOI
6 S. H. Park & M. S. Park. (2020). Measuring Inner or Outer Position of Ship Passenger and Detection of Dangerous Situations based LoRa WAN Communication. Journal of Korea Multimedia Society, 23(2), 282-292. DOI : 10.9717/kmms.2020.23.2.28   DOI
7 B. J. Park & M. S. Kim. (2022). A Study on the Characteristics of the Work Safety Environment Sensing Module for LNG Storage Tanks. Journal of Korea Multimedia Society, 25(2), 189-196. DOI : 10.9717/kmms.2022.25.2.189   DOI
8 Y. H. Cho. (2018). Increasing orders for LNG propulsion ships and predicting LNG bunkering business. Seoul : KDB Future Strategy Laboratory.
9 HSE. (2012). Failure Rate and Event Data for Use within Risk Assessments. England : Health & Safety Executive.
10 Y. H. Kim, H. J. Lee, S. H. Yoo & S. Y. Huh. (2020). Analyzing the Determinants of Direct Imports of Liquefied Natural Gas by Private Companies in Korea. Journal of the Korean Society of Innovation, 15(3), 59-85. DOI : 10.46251/INNOS.2020.08.15.3.59   DOI
11 S. H. Kim, H. W. Han, H. W. Bang & K. K. Lee. (2021). Development of SAW sensor-based hydrogen gas detection circuit and system. Proceedings of the KIEE Conference, 1638-1640.
12 I. Joo, E. J. Cheon, G. A. Ryu, J. CH. Jin & K. H. Yoo. (2021). Effective techniques for data collection from a variety of PLCs. Proceedings of the Korea Contents Association Conference, 49-50.
13 S. M. Lee & N. H. Kim. (2019). Failure Mode and Effects Analysis of LNG Bunkering Monitoring System. Proceedings of the Korean Institute of Information and Commucation Sciences Conference, 23(2), 19-21.
14 K. T. Lee & H. CH. Kim. (2021). A Basic Study on Real-Time Piping Monitoring System of Ships based on 3D Simulator using IoT Sensors. Journal of the Korea Academia-Industrial cooperation Society, 22(9), 769-777. DOI : 10.5762/KAIS.2021.22.9.7   DOI
15 S. H. Hong & B. K. Kim. (2022). The Efficient Ship Wireless Sensor Network Using Drone. Journal of the Korea Institute of Information andCommunication Engineering, 26(1), 122-127. DOI : 10.6109/jkiice.2022.26.1.122   DOI