RISS 검색 - 국내학술지논문 상세보기

국문 초록 (Abstract)

본 논문에서는 가스보일러에 사용되는 점화트랜스를 제작하여 전류와 역률, 소비전력을 측정하였다.. 역률을 측정한 결과, 자체 제작된 점화트랜스는 외국제품에 비해 높았으며 소비전력은 낮게 측정되었다. 점화봉 간격을 2mm로 고정을 시키고 점화봉 길이가 30cm,500cm,1000cm일 때 3.45A, 14.5A, 16.2A로 측정되었다. 점화봉 간격을 4mm로 고정을 시키고 점화봉 길이가 30cm, 500cm, 1000cm일 때 , 2.8A, 10.1A, 13.2A로 측정되었다. 점화봉 간격이 6mm로 고정시키고 점화봉 길이가 30cm, 500cm, 1000cm일 때 2.73A1, 0.2A, 32.6A로 측정되었다. 점화봉 간격이 8mm로 고정시키고 점화봉 길이가 30cm, 500cm, 1000cm일 때 3.13A, 9.37A, 21.4A로 측정되었다. 점화봉 간격이 10mm로 고정을 시키고 점화봉 길이가 30cm일 때는 3.4A, 14.4A, 25.6A로 측정되었다. 결론적으로 점화봉 길이가 증가 하면 전류도 증가되었다.

번역하기

본 논문에서는 가스보일러에 사용되는 점화트랜스를 제작하여 전류와 역률, 소비전력을 측정하였다.. 역률을 측정한 결과, 자체 제작된 점화트랜스는 외국제품에 비해 높았으며 소비전력은...

다국어 초록 (Multilingual Abstract)

In this paper, the ignition trans used in the gas boiler was produced to measure current, power factor, and power consumption. As a result of measuring the power factor, the self-made ignition trans was higher than that of foreign products and the power consumption was lower. The ignition gap was fixed to 2 m, and when the ignition rod length was 30cm, 500cm, and 1000cm, it was measured as 3.45A, 14.5A, and 16.2A. When the ignition gap was fixed to 4mm and the ignition rod length was 30cm, 500cm, and 1000cm, it was measured as 2.8A, 10.1A, and 13.2A. When the ignition gap was fixed at 6mm and the ignition rod length was 30cm, 500cm, and 1000cm, it was measured as 2.73A, 10.2A, and 32.6A. When the ignition gap was fixed at 8 mm and the ignition rod length was 30 cm, 500cm, and 1000cm, it was measured as 3.13A, 9.37A, and 21.4 . The ignition gap was fixed at 10 mm, and when the ignition rod length was 30cm, it was measured as 3.4A, 14.4 A, and 25.6A. In conclusion, as the length of the ignition rod increased, the current also increased.

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목차 (Table of Contents)

요약
Abstract
1. 서론
2. 이론적 배경
3. 실험방법

요약
Abstract
1. 서론
2. 이론적 배경
3. 실험방법
3. 결과 및 고찰
4. 결론
REFERENCES

참고문헌 (Reference)

1 T. G. Kim, "The advantage of contin -uous heating using a gas boiler as a heat source" (4) : 23-42, 1989

2 Park, I. S., "The Characteristic of Combustion on Flat Plate Type Premixing Surface Combustion Gas Burner and Applied Cases" 284-289, 2008

3 K. B. Lee, "Research for Development of Gas Boiler" 19 (19): 23-27, 1991

4 Korean Standards Association, "KS B 8127: Domestic hot water gas condensing boiler" Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards 19-, 2014

5 Korean Standards Association, "KS B 8109 :Domestic hot water gas boiler" Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards 20-21, 2014

6 Korean Standards Association, "KS B 8100 :Gas appliance technical terms" Ministry of Trade, Industry and Energy Korea Agency for Technical and Standards 12-, 2015

7 Korea Gas Safety Corporation, "KGS Code AB131- Facility/ Technical/ Inspection Code for Manufacture of FE and FF Type Gas boiler" Korea Gas Safety Corporation Technical standard division 38-39, 2016

8 Park, B.I., "Ju`aracteristics of Cyꠓlindrical Flat Premixed Burner for Condensing Boiler" 287-291, 2010

9 X. Yu, "Improvement on Energy Efficiency of the Spark Ignition System" SAE

10 J.D. Dale, "Application of High Energy Ignition Systems to Engines" 23 (23): 379-398, 1997