• 대한전기학회
Mobile QR Code QR CODE : The Transactions of the Korean Institute of Electrical Engineers
  • COPE
  • kcse
  • 한국과학기술단체총연합회
  • 한국학술지인용색인
  • Scopus
  • crossref
  • orcid
The Transactions of the Korean Institute of Electrical Engineers

The Transactions of the Korean Institute of Electrical Engineers

ISO Journal TitleTrans. Korean. Inst. Elect. Eng.
SCImago Journal & Country Rank

Journal Search

  1. Home
  2. Archive
  3. 2019-04 (Vol.68 No.04)
  4. 10.5370/KIEE.2019.68.4.513
XML PDF INFO REF

References

1 
KPX, 2014, A Study on Policy Directions for the Promotion of Distributed District Heat and Power GenerationGoogle Search
2 
G. Allan, I. Eromenko, M. Gilmartin, I. Kockar, P. McGregor, February 2015, The economics of distributed energy generation: A literature review, Renewable and Sustainable Energy Reviews, Vol. 42, pp. 543-556DOI
3 
K. Forsten, 2015, The integrated grid—A Benefit-Cost Framework, Electric Power Research Institute (EPRI): Palo Alto, CA, USA.Google Search
4 
T. Woolf, M. Whited, E. Malone, T. Vitolo, R. Hornby, 2014, Benefit-cost analysis for distributed energy resourcesGoogle Search
5 
Federal Energy Regulatory Commission, 2007, The potential benefits of distributed generation and rate-related issues that may impede their expansion, US Department of EnergyGoogle Search
6 
Douglas J. Herman, 2005, The Value of Distributed Generation and Combined Heart and Power Resources in Wholesale Power Market, Oak Ridge National Laboratory, 4000021799Google Search
7 
KEEI, 2007, Role and policy direction of distributed generation considering congestion cost in the capital regionGoogle Search
8 
KERI, 2015, Study on On-site generation expansion policy in Seoul metropolitan areaGoogle Search
9 
KDHCA, 2015, A study on the improvement of electric power market system and support plan for activation of integrated-energy businessGoogle Search
10 
Yong-Ha. Kim, Pyong-Ho. Lee, Young-Gil. Kim, Hyun- Mi. Jo, Sung-Min. Woo, 2011, A Study on Calculation of Combined Heat and Power on Standpoint of Nation and Independent Power Producers, KIEE Transaction, Vol. 60, No. 5, pp. 905-912DOI
11 
Jong-Ryul Won, Kyeong-Hwan Kim, Rae-Jun Park, Kyung-Bin Song, 2018, A Study on the Benefit/Cost Analysis of LNG Combined Heat and Power by Capacity from National Perspective, KIEE Journal, Vol. 32, No. 2, pp. 55-64Google Search
12 
E. Z. Gumerman, R. R. Bharvirkar, K. H. LaCommare, C. Marnay, 2003, Evaluation Framework and Tools for Distributed Energy Resources, Ernest Orlando Lawrence Berkeley National Laboratory. LBNL-52079 2003.Google Search
13 
U.S. Department of Energy, 2007, The potential benefits of distributed generation and rate-related issues that may impede their expansionGoogle Search
14 
Yi-Hseih Huang, Sheng-Nian Yeh, 2004, Benefit evaluation of cogeneration based on avoided costs of power generation and transmission, IEEE PES Power Systems Conference and Exposition, Vol. 1, pp. 35-40DOI
15 
A. Piccolo, P. SiaNo, 2009, Evaluating the Impact of Network Investment Deferral on Distributed Generation Expansion, IEEE Transactions on Power Systems, Vol. 24, No. 3, pp. 1559-1567DOI
16 
D. Lee, R. Baldick, 2017, Load and wind power scenario generation through the generalized dynamic factor model, IEEE Trans. Power Syst., Vol. Vol. 32, No. No. 1, pp. 400-410Google Search
17 
KEPCO, 2018, 2018 The monthly report on major electric power statistics, No. 478Google Search
18 
KERI, 2015, A Study on the Adequacy of the Industrial Electricity Price in the Korean Electricity MarketGoogle Search
19 
Young-Tak Cho, Kwanghoon Seok, Jong-Bae Park, 2018, LCOE Assessment of Major Power Generation Technologies Reflecting Social Costs, KIEE, Vol. 67, No. 2, pp. 179-185DOI