1 |
Cho, S. C., Hah, T. K, Haan, S. J., and Han, H. S., 2016, "A Study for Development and Demonstration of Campus Micro Grid in Seoul National University", Proceeding of The Korean Institute of Electrical Engineers 2016 Summer Conference, 504-505, https://www.kiee.or.kr/pages_publications/electronic_library.vm
|
2 |
Mousavi G., S.M., 2012, "An autonomous hybrid energy system of wind/tidal/microturbine/ battery storage", Int. J. Electr. Power Energy Syst., 43(1), 1144-1154.
DOI
|
3 |
Mayyas, A., Wei, M., and Levis, G., 2020, "Hydrogen as a long-term, large-scale energy storage solution when coupled with renewable energy sources or grids with dynamic electricity pricing schemes", Int. J. Hydrog., 45(33), 16311-16325.
DOI
|
4 |
Daily Economics, 2016, "Challenge small-scale wind power "renewable energy" business", https://www.mk.co.kr/news/business/view/2016 /05/331814.
|
5 |
Energy Newspaper, 2021, "What is the solution to cheap green hydrogen production?", https://www.energy-news.co.kr/news/ articleView.html?idxno=76539.
|
6 |
Jeong, S.H., Jeong, L.H., Jang, J.W., Jeon, S.E., and Ahn, S.M., 2021, "A study on the performance assessment of plus DR to reduce renewable energy curtailment", Proceeding of 2021 KIEE Summer Conference, 727-728.
|
7 |
Kristiawan, R.B., Widiastuti, I., and Suharno, S., 2018, "Technical and economical feasibility analysis of photovoltaic power installation on a university campus in Indonesia", Proceeding of MATEC Web of Conferences, 197(2), 08012.
DOI
|
8 |
Hirsch, A., Parag, Y., and Guerrero, J., 2018, "Microgrids: A review of technologies, key drivers, and outstanding issues", Renew. Sust. Energ. Rev., 90, 402-411.
DOI
|
9 |
Borghese, F., Cunic, K., and Barton, P., 2018, "Microgrid Business Models and Value Chains", Schneider Electric White Paper, https://perspectives.se.com/e-books/microgrid-business-models.
|
10 |
Del Granado, P.C., Pang, Z., and Wallace, S.W., 2016, "Synergy of smart grids and hybrid distributed generation on the value of energy storage", Applied Energy, 170, 476-488.
DOI
|
11 |
Washom, B., Dilliot, J., Weil, D., Kleissl, J., Balac, N., Torre, W., and Richter, C., 2013, "Ivory tower of power: Microgrid implementation at the university of California, San Diego", IEEE Power and Energy Magazine, 11(4), 28-32.
DOI
|
12 |
Muqeet, H.A., Munir, H.M., Javed, H., Shahzad, M., Jamil, M., and Guerrero, J.M., 2021, "An energy management system of campus microgrids: State-of-the-art and future challenges", Energies, 14(20), 6525.
DOI
|
13 |
Ismail, M.S., Moghavvemi, M., Mahlia, T.M.I., Muttaqi, K.M., and Moghavvemi, S., 2015, "Effective utilization of excess energy in standalone hybrid renewable energy systems for improving comfortability and reducing cost of energy: a review and analysis", Renew. Sust. Energ. Rev., 42, 726-734.
DOI
|
14 |
Bonfiglio, A., Delfino, F., Pampararo, F., Procopio, R., Rossi, M., and Barillari, L., 2012, "The smart polygeneration microgrid test-bed facility of Genoa University", Proceeding of 2012 47th International Universities Power Engineering Conference (UPEC), 4-7.
|
15 |
Lee, K.D., and Kim, K.H., 2020, "Establishment and operation of a mid- to long-term power generation cost forecast system to expand the supply of renewable energy. (1/5)", Korea Energy Economics Institute, https://www.keei.re.kr/web_keei/d_results.nsf/main_all/A10FCB3438C55F4349258669004FC436/$file/%EA%B8%B0%EB%B3%B8%202020-21_%EC%9E%AC%EC%83%9D%EC%97%90%EB%84%88%EC%A7%80%20%EA%B3%B5%EA%B8%89%ED%99%95%EB%8C%80%EB%A5%BC%20%EC%9C%84%ED%95%9C%20%EC%A4%91%EC%9E%A5%EA%B8%B0%20%EB%B0%9C%EC%A0%84%EB%8B%A8%EA%B0%80(LCOE)%20%EC%A0%84%EB%A7%9D%20%EC%8B%9C%EC%8A%A4%ED%85%9C%20%EA%B5%AC%EC%B6%95%20%EB%B0%8F%20%EC%9A%B4%EC%98%81.pdf.
|
16 |
Jeju special self-governing province, 2019, "Integrated renewable energy supplementation, CFI 2030 plan modification and supplement service for energy independence", file:///C:/Users/KSNRE/Downloads/CFI%202030%EA%B3%84%ED%9A%8D%20%EC%88%98%EC%A0%95%20%EB%B3%B4%EC%99%84%20%EC%9A%A9%EC%97%AD(%EC%9A%94%EC%95%BD%EB%B3%B8).pdf.
|
17 |
Na, M.S., and Kim, J.O., 2019, "Optimal sizing and location of renewable energies in a microgrid", New. Renew. Energy, 15(1), 55-61.
DOI
|
18 |
Hatziargyriou, N., 2014, "Microgrids: Architectures and control", Wiley, 25-203.
|
19 |
Del Granado, P.C., Wallace, S.W., and Pang, Z., 2014, "The value of electricity storage in domestic homes: a smart grid perspective", Energy Systems, 5(2), 211-232.
DOI
|
20 |
Zhang, K., Li, J., He, Z., and Yan, W., 2018, "Microgrid energy dispatching for industrial zones with renewable generations and electric vehicles via stochastic optimization and learning", Phys. A: Stat. Mech. Appl., 501, 356-369.
DOI
|
21 |
M. Shahidepour, 2014, "Perfect power prototype for illinois institute of technology final technical report", United States, https://www.osti.gov/biblio/1191135.
|
22 |
Kim, B.C., Jeong, H.Y., and Kim, H.Y., 2018, "Campus microgrid-EMS system considering multi-MG power trading", Proceeding of Symposium on Micrpgrids, https://microgrid-symposiums.org/wp-content/uploads/2018/07/05_poster_2018_HyeYoonJeong.pdf.
|
23 |
Kei, F., Takashi, O., Katsuhiro, K., Taizo, S., Kenichi, K., and Shigeo., N., 2013, "Multi-building energy management system at Chubu University for a smart community", Shimizu Corporation, 90, 93-100.
|
24 |
Demiroren, A., and Yilmaz, U., 2010, "Analysis of change in electric energy cost with using renewable energy sources in Gokceada, Turkey: An island example", Renew. Sust. Energ. Rev., 14(1), 323-333.
DOI
|
25 |
Ranjevaa, M., and Kulkarnia, A.K., 2012, "Design optimization of a hybrid, small, decentralized power plant for Remote/Rural areas", Energy Procedia, 20, 258-270.
DOI
|
26 |
Korea Energy Agency, 2021, "CO2 emission coefficient of electricity", https://tips.energy.or.kr/qna/qna_view.do?no=1797.
|
27 |
Korea Electric Power Corporation (KEPCO), "Electric Rates Table", https://cyber. kepco. co.kr/ckepco/front/jsp/CY/E/E/CYEEHP 00101.jsp.
|
28 |
Wikipedia, "Pearson correlation coefficient", https://en.wikipedia.org/wiki/Pearson_correlation_ coefficient
|
29 |
Ajuzie Uchechukwu, C., Azubogu, A.C.O., and Inyiama, H.C., 2019, "Modeling and simulation of campus solar-diesel hybrid using HOMER grid (SPGS Nnamdi Azikiwe university Awka campus as a case study)", THE IJES, 8(12), 97-108, https://www.theijes.com/papers/vol8-issue12/Series-2/K08120297108.pdf.
|
30 |
Zhang, Y., Campana, P.E., Lundblad, A., and Yan, J., 2017, "Comparative study of hydrogen storage and battery storage in grid connected photovoltaic system: storage sizing and rule-based operation", Appl. Energy, 201, 397-411.
DOI
|
31 |
Mun, H., Moon, B.H., Park, S.J., and Yoon Y.B., 2021, "A Study on the economic feasibility of stand-alone microgrid for carbon-free island in Korea", Energies, 14(7), 1913.
DOI
|
32 |
Anderson, R., Burrows, J.O., and Gilbert, A., 2018, "Excess supply DR pilot 2015-2017 summary and findings (Public version)", PG&E, 2018, 16.
|
33 |
The Korean Institute of Electrical Engineers (KIEE), 2020, "P2G economic analysis and resolution of excess electricity in Jeju island", Energy Focus 2020 Autumn issue, 17(3), http://www.keei.re.kr/keei/download/focus/ef2010/ef2010_70.pdf
|