Fig. 1. The diagram of micro-combined heat and power system.
Table 1. Domestic and international standards for combined heat and power systems
Table 2. Gas engine combined heat and power system safety performance assessment items
Table 3. Method of combustion state performance assessment
Table 4. Classification of safety performance assessment items
Table 5. Analysis of risk factors for gas engine combined heat and power system
Table 6. Result of HAZOP study of micro-gas engine combined heat and power systems
Table 7. Structural and material assessment items of internal combustion engine power system
Table 8. The list of gas engine CHP system safety performance assessment items
References
- Korea Electric Power Corporation, "2017 Statics of Electric Power in Korea", 87, 5-27, (2018)
- Korea Energy Economics Institute, "2017 Yearbook of Regional Energy Statistics", (2017)
- Hyundai Research Institute, "VIP Report-Structural Problems and Improvement Plans of Domestic Electricity Supply", 1-8, (2013)
- Kwon, O. J., "A Study on Smart Energy Network Model for Industrial Complexes Utilizing Distributed Power Resources", Soongsil University Master's Thesis, 1-7, (2018)
- The Korea Energy Management Corporation, "2003 Cogeneration Technology Guidebook", 20-203, (2003)
- Ministry of Trade Industry and Energy, "A Basic Plan for 8th Power Supply", (2017)
- Choi, J. J., Park, B. S., Jung, D. H., Kim, H. J., Ka- ng, S. H., Im, Y. H. and Song, D. S., "The Operation Characteristics of Domestic Stirling Engine and Reciprocating Gas Engine Cogeneration Systems", The Society of Air-Conditioning and Refrigerating Engineers of Korea, 739-743, (2010)
- Jeong, J. Y., "A Study on Application of Small-Scale Gas Cogeneration Facilities and Their Wider Uses", Hanyang University Master's Thesis, 1-7, (2007)
- Korea Energy Management Corporation, "2003 Cogeneration Technology Guidebook", 10-25, (2003)
- Korea Energy Agency, "2017 Group Energy Project Handbook", (2017)
- Oh, S. H., Kim, H. Y., Park, W. S. and Kim, S. M., "Standardization Study on Performance Test Method of Combined Heat and Power System for Buildings", Journal of Standards and Standard- ization, 7(2), 41-54, (2017)
- EN 50465, "European Product Standard for Combined Heating Power Systems using Gas Fuel", European Norm, (2015)
- EN 13203-4 "Gas-Fired Domestic Appliances Producing Hot Water", European Norm, (2016)
- EN 15316-4-4, "Energy Performance of Buildings -Method for Calculation of System Energy Requirements and System Efficiencies", European Norm, (2017)
- IEC 622-2-3-100, "Fuel Cell Technologies- Part 3-100: Stationary Fuel Cell Power Systems-Safety", International Electrotechnical Commission, (2014)
- IEC 62282-3-400, "Fuel Cell Technologies-Part 3-400: Stationary Fuel Cell Power Systems - Small Stationary Fuel Cell Power System with Combined Heat and Power Output", International Electrotechnical Commission, (2016)
- JIA F 025-06 "Regulation for Small Gas Engine Combined and Heat Power System Inspection", Japan Gas Appliances Inspection Association, (2009)
- JIS B 8122, "Test Methods for Measuring Performance of Cogeneration Unit", Japanese Industrial Standards committee, (2009)
- JIS B 8124, "Requirements of the Components of the Gas Engine Driven Cogeneration Package", Japanese Industrial Standards committee, (2018)
- KS B 8911, "Reciprocating Internal Combustion Gas Engines for Domestic Cogeneration - Power and Gas Consumptions Test Methods", Korean Agency of Technology and Standards, (2016)
- KS B 8912, "Domestic Combined Heat and Power Generator using Internal Gas Combustion Engines - Performance Test Methods", Korean Agency of Technology and Standards, (2016)
- KS B 8913, "Combined Heat and Power Unit using Internal Gas Combustion Engines for Building - Performance Test Methods", Korean Agency of Technology and Standards, (2017)
- SPS KEAA 17, "Domestic Combined Heat And Power Generation System Using Internal Gas Engines-Installation Requirements", Korea Energy Appli- ances Industry Association, (2016)
- KGS AB934, "Facility/Technical/Inspection Code for Manufacture of Gas Fuel Cells", Korea Gas Safety Corporation, (2016)
- Kang, S. J., "Case Study of Domestical Risk Assessment Trends and Analysis", Hanyang University Doctoral Thesis, 37-90, (2015)
-
You, C. H., Kim, J. Y., "HAZOP Study for Risk Assessment and Safety Improvement Strategies of
$CO_{2}$ Separation Process", Korean Chemical Engineering Research, 56(3), 335-342, (2018) https://doi.org/10.9713/KCER.2018.56.3.335 - Guide, K., "Risk and HAZOP", (2018)
- Kim, C. K., "Automotive Engineering, 4th Edition", Bogdoo, (2017)
- Lee, I. G. and Jung, D. H., "Automobile Fire", GoldenBell, (2014)