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재생에너지 출력제어 환경에서 CHP-HP-TES 통합 운영의 유연성 및 경제성 분석open accessFlexibility and Economic Analysis of CHP-HP-TES Integrated Operation under Renewable Energy Curtailment

Other Titles
Flexibility and Economic Analysis of CHP-HP-TES Integrated Operation under Renewable Energy Curtailment
Authors
하승권김진수
Issue Date
Mar-2026
Publisher
한국신·재생에너지학회
Keywords
Sector coupling;  Power-to-Heat;  Heat pump;  Combined heat and power;  Thermal energy storage;  Renewable energy curtailment; 섹터커플링;  전력-열 변환;  히트펌프;  열병합발전;  축열조;  재생에너지 출력제어
Citation
신재생에너지, v.22, no.1, pp 32 - 41
Pages
10
Indexed
KCI
Journal Title
신재생에너지
Volume
22
Number
1
Start Page
32
End Page
41
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211873
DOI
10.7849/ksnre.2026.0005
ISSN
1738-3935
2713-9999
Abstract
With the rapid expansion of renewable energy in Korea, the curtailment caused by grid limitations has become a challenge, and the heating sector remains heavily dependent on fossil fuels. This study proposes a sector-coupling strategy involving combined heat and power (CHP), heat pump (HP), and thermal energy storage (TES) technologies as a practical way to address these issues, and quantifies the flexibility and fuel-cost savings associated with this strategy. A mixed-integer linear programming model with two-stage lexicographic optimization was developed with 540 scenarios, considering various HP capacities, renewable capacities, grid-hosting ratios, and LNG prices. HP technology is limited to consuming only surplus renewable electricity, ensuring that the system operates solely on internally available renewable electricity. The results show that adopting an HP at 10 MW reduces curtailment by up to 96.3% and fuel costs by 42.7% at an LNG price of 75,000 KRW/Gcal. HP-TES integration decouples CHP from thermal demand, with a correlation of between 0.772 and 0.430, thereby expanding the flexibility range from 6.73 to 8.07 MW. Furthermore, 63% of HP energy absorption at 10 MW is enabled solely by TES, confirming TES's role as a prerequisite for large-scale HP operation, rather than as an auxiliary component. Payback periods of 0.78–1.43 years indicate the economic viability of HP across all capacities.
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