| 1 |
Flexibility metrics for analysis of power system transition-A case study of Japan and Sweden
Saarinen L, Tokimatsu K
Renewable Energy, 170, 764, 2021 |
| 2 |
Maximum penetration determination of variable renewable energy generation: A case in Java-Bali power systems
Tumiran, Putranto LM, Sarjiya, Pramono EY
Renewable Energy, 163, 561, 2021 |
| 3 |
Optimal decision-making for combined heat and power operations: A fuzzy optimisation approach considering system flexibility, environmental emissions, start-up and shutdown costs
Lok WJ, Ng LY, Andiappan V
Process Safety and Environmental Protection, 137, 312, 2020 |
| 4 |
A review of power system planning and operational models for flexibility assessment in high solar energy penetration scenarios
Emmanuel M, Doubleday K, Cakir B, Markovic M, Hodge BM
Solar Energy, 210, 169, 2020 |
| 5 |
Modeling formulation and validation for accelerated simulation and flexibility assessment on large scale power systems under higher renewable penetrations
Han XN, Chen XY, McElroy MB, Liao SW, Nielsen CP, Wen JY
Applied Energy, 237, 145, 2019 |
| 6 |
Multi-temporal assessment of power system flexibility requirement
Heggarty T, Bourmaud JY, Girard R, Kariniotakis G
Applied Energy, 238, 1327, 2019 |
| 7 |
Probabilistic duck curve in high PV penetration power system: Concept, modeling, and empirical analysis in China
Hou QC, Zhang N, Du ES, Miao M, Peng F, Kang CQ
Applied Energy, 242, 205, 2019 |
| 8 |
Competitiveness of open-cycle gas turbine and its potential in the future Korean electricity market with high renewable energy
Kim EH, Park YG, Roh JH
Energy Policy, 129, 1056, 2019 |
| 9 |
A generic framework for power system flexibility analysis using cooperative game theory
Kristiansen M, Korpas M, Svendsen HG
Applied Energy, 212, 223, 2018 |
| 10 |
A data driven multi-state model for distribution system flexible planning utilizing hierarchical parallel computing
Ye CJ, Ding Y, Song YH, Lin ZZ, Wang L
Applied Energy, 232, 9, 2018 |
