Browse > Article
http://dx.doi.org/10.17661/jkiiect.2022.15.4.223

A Study on the Development of Low Frequency Electronic Ignition Trans for Large Combustors  

Lee, Ho-kyun (SENSOR9 Co.)
Park, Jung-cheul (Department of Electronic Engineering, Gachon University)
Publication Information
The Journal of Korea Institute of Information, Electronics, and Communication Technology / v.15, no.4, 2022 , pp. 223-229 More about this Journal
Abstract
In this paper, the ignition trans used in boilers was studied. Regardless of the change in the ignition rod length and the ignition rod gap, the output frequency was measured between 59.5 and 61.3 Hz, and it was found that the low frequency circuit operated normally. When the ignition rod gap changed by 2 to 10 mm, the ignition rod length was measured from 2.8A to 3.45A at 30cm. The ignition rod length was measured from 9.37 A to 14.5 A at 500 cm and from 13.2 A to 32.6 A at 1000 cm. As the ignition rod length and the ignition rod gap increased, the current increased. As a result of measuring the secondary coil output voltage. The ignition rod length was measured from AC 0.84 kV to AC 1.75 kV at 30 cm, AC 1.17 kV to AC 1.944 at 500 cm, and AC 1.4 kV to AC 7.18 kV at 1000 cm. As the ignition rod length and the ignition rod gap increased, the output voltage of the secondary coil also increased. As a result of measuring the output voltage of the ignition trans, the ignition rod length was measured from DC 1.11 kV to DC 1.57 kV at 30cm, DC 2.49 kV to DC 3.72 kV at 500cm, and DC 3.78 kV to DC 9.42 kV at 1000cm, and the power voltage increased as the ignition rod length and interval increased.
Keywords
boiler; ignition trans; ignition rod length; ignition rod gap; secondary coil;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 H. K. Lee, J. W. Kim, J. C. Park, "A Study on the Development of Ignition Trans applied to Gas Boiler",Journal of Korea Institute of Information, Electronics, and Communication Technology, Vol.14 No.6, pp.476~472, 2021
2 IEEE 1584-2002, "Guide for performing arc-flash hazard calculations," IEEE Std. pp. 1584-2002, 2002.
3 T. G. Kim, "The advantage of continuous heating using a gas boiler as a heat source.", The Society Of Air- Conditioning And Refrigerating Engineers Of Korea, No.4, pp.23~42, 1989
4 Korean Standards Association, "KS B 8109 : Domestic hot water gas boiler, Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards, pp. 20~21, 2014,
5 Korean Standards Association,"KS B 8100 : Gas appliance technical terms, Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards, pp. 12, 2015,
6 J. D. Dale, M. D. Checkel, P. R. Smy, "Application of High Energy Ignition Systems to Engines", Progress in Energy and Combustion Science, Vol.23, No.5, pp. 379~398, 1997, doi: 10.1016/S0360-1285(97)00011-7.64   DOI
7 B. I. Park, P. H. Lee, S. H. Cho, "Combustion Characteristics of Cyslindrical Flat Premixed Burner for Condensing Boiler", KOSCO SYMPOSIUM, pp. 287 ~ 291, 2010
8 I. S. Park, H. K. Kim, "The Characteristic of Combustion on Flat Plate Type Premixing Surface Combustion Gas Burner and Applied Cases", KOSCO SYMPOSIUM 284-289, 2008
9 Korean Standards Association., "KS B 8127 : Domestic hot water gas condensing boiler, Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards, pp.19, 2014,
10 X. Yu, S. Yu, Z. Yang, Q. Tan, M. Ives, L. Li, M. Liu, M. Zheng, "Improvement on Energy Efficiency of the Spark Ignition System", SAE Technical Paper, doi: 10.4271/2017-01-0678.   DOI
11 C. N. Park, L. H. Kim, "A Development of Test Method on the Energy Consumption Efficiency of Domestic Gas Boiler below 70 kW", Journal of Energy Engineering, Vol. 25, No. 3, pp.73~82, 2016   DOI
12 K. B. Lee, "Research for Development of Gas Boiler",The Society Of Air-Conditioning And Refrigerating Engineers Of Korea, Vol.19, No.41, pp.23~27, 1991.