Diagnosis of Abnormal Heat Generation in the Connection Part in Low Voltage MCCBs for Fire Risk Prediction
This study is conducted to determine the critical temperature under normal current flow by estimating normal heat generation; the saturation temperature of the connecting part of a circuit breaker is simultaneously measured by sub-dividing the rated current of molded case circuit breaker (MCCB) into...
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| Published in | Fire Science and Engineering Vol. 34; no. 5; pp. 42 - 49 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
31.10.2020
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| Online Access | Get full text |
| ISSN | 1738-7167 2508-6804 |
| DOI | 10.7731/KIFSE.2073bb81 |
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| Abstract | This study is conducted to determine the critical temperature under normal current flow by estimating normal heat generation; the saturation temperature of the connecting part of a circuit breaker is simultaneously measured by sub-dividing the rated current of molded case circuit breaker (MCCB) into 10 steps. Further, a risk analysis was conducted via an investigation of thermal characteristics. To this end, five types of MCCBs were selected while building a temperature test box; further, the heat generation temperature of the three phases on the line and load sides was measured using the sub-divided load current to represent the electrical heat variation and a high-current-generating tester real-time. The results the test, demonstrate that the temperature of the connecting part of the MCCB stably increased; in addition, the standard of the heat generation could be established and the load amount could be predicted by measuring the temperature variation. Meanwhile, the heat generation temperature was different for different types of wirings such as power lines and Busbar. Further among the R, S, and T phases of the MCCB, S phase temperature was slightly higher than those of the others. This study can serve as a theoretical reference for future applied research on the dangers of fire due to the heat generation of the connecting part of the MCCB, wherein the risks of abnormal heat generation need to be analyzed. The results obtained can be applied not only to prevent the carbonization accidents of MCCBs installed inside distribution panels being used at industrial sites, but also to manage the risks of the distribution circuit breaker and prevent the electrical fire. |
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| AbstractList | This study is conducted to determine the critical temperature under normal current flow by estimating normal heat generation; the saturation temperature of the connecting part of a circuit breaker is simultaneously measured by sub-dividing the rated current of molded case circuit breaker (MCCB) into 10 steps. Further, a risk analysis was conducted via an investigation of thermal characteristics. To this end, five types of MCCBs were selected while building a temperature test box; further, the heat generation temperature of the three phases on the line and load sides was measured using the sub-divided load current to represent the electrical heat variation and a high-current-generating tester real-time. The results the test, demonstrate that the temperature of the connecting part of the MCCB stably increased; in addition, the standard of the heat generation could be established and the load amount could be predicted by measuring the temperature variation. Meanwhile, the heat generation temperature was different for different types of wirings such as power lines and Busbar. Further among the R, S, and T phases of the MCCB, S phase temperature was slightly higher than those of the others. This study can serve as a theoretical reference for future applied research on the dangers of fire due to the heat generation of the connecting part of the MCCB, wherein the risks of abnormal heat generation need to be analyzed. The results obtained can be applied not only to prevent the carbonization accidents of MCCBs installed inside distribution panels being used at industrial sites, but also to manage the risks of the distribution circuit breaker and prevent the electrical fire. |
| Author | Yeon, Yeong-Mo Kim, Seung-Hee |
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| Cites_doi | 10.5573/ieek.2013.50.9.189 10.1109/TCPMT.2017.2720421 10.7731/KIFSE.1b692d79 10.14346/JKOSOS.2015.30.5.1 |
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| References | Kim (ref1) 2010 Kim (ref10) 2016 Park (ref12) 2004 Shin (ref3) 2011 Shin (ref14) 2016 ref2 Kim (ref11) 2016 ref16 Kim (ref8) 2009 (ref15) 2020 ref9 ref4 Kim (ref5) 2009 Kim (ref7) 2008 Park (ref13) 2003 Cho (ref6) 2014 |
| References_xml | – start-page: 508 volume-title: Thermal Analysis for Prediction of Temperature Rise of Molded Case Circuit Breaker year: 2014 ident: ref6 – start-page: 273 volume-title: Development Device for Decrease Electrical accident in Panel year: 2016 ident: ref11 – start-page: 91 volume-title: Development of Fire Detector with Communication Function in Cabinet Panel year: 2011 ident: ref3 – ident: ref9 doi: 10.5573/ieek.2013.50.9.189 – start-page: 54 volume-title: Research on Overheat Protection Techniques of Connection Parts of MCCB by Poor Contact year: 2008 ident: ref7 – start-page: 2149 volume-title: A Study on the Unique Point about the Tracking at Electrical Fire Spot year: 2010 ident: ref1 – ident: ref16 doi: 10.1109/TCPMT.2017.2720421 – year: 2020 ident: ref15 – ident: ref2 doi: 10.7731/KIFSE.1b692d79 – start-page: 1553 volume-title: Characteristics & Fire Risk in Accordance with the Series Arcing in the Connecting Portion of the Circuit Breaker year: 2016 ident: ref10 – start-page: 12 volume-title: Effects of Contact Resistance on Temperature Rise in a MCCB year: 2004 ident: ref12 – start-page: 655 volume-title: A Study on the Temperature Rise of a MCCB for the Electrical Contact Resistance year: 2003 ident: ref13 – start-page: 2158 volume-title: Analysis of Thermal Characteristics by Poor Contacts at the Connection Parts of DC Power Appliances year: 2009 ident: ref5 – start-page: 128 volume-title: Analysis of Heat Characteristics and Fire Risks of Circuit Breakers in Panel Board according to the Variations of Tightness Torques year: 2009 ident: ref8 – start-page: 115 volume-title: The Selection of Wiring and Breaker for Induction Motor for Low Voltage year: 2016 ident: ref14 – ident: ref4 doi: 10.14346/JKOSOS.2015.30.5.1 |
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| Title | Diagnosis of Abnormal Heat Generation in the Connection Part in Low Voltage MCCBs for Fire Risk Prediction |
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