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Investigating capacity credit sensitivity to reliability metrics and computational methodologies

Saad Muaddi, Chanan Singh

2022Applied Energy15 citationsDOIOpen Access PDF

Abstract

Assigning capacity value to renewable energy sources (RES) is a challenge faced in planning their integration with the grid. The difficulties stem from the natural characteristics of variability and intermittency of wind and solar sources. The capacity credit (CC) analysis evaluates the system’s actual power output compared with a constant capacity generator, i.e., conventional generator and determines an effective capacity to use for planning and operation. This paper presents different factors that could affect the CC of a system. Two methods are proposed to determine the CC, namely equivalent firm capacity (EFC) and effective load carrying capability (ELCC). Since these methods are based on satisfying reliability criteria, daily loss of load expectation (LOLE), hourly loss of load (LOLH), and expected energy not served (EENS) have been employed as indices. To obtain the CC value, both methods apply two techniques: traditional and optimization. Genetic algorithm (GA) is the optimization approach used in this paper. Then, this work compares the two techniques and shows the superior performance of the optimization approach. Two hybrid systems, stand-alone (SA) and grid-connected (GC) modes, are proposed and used as case studies. The hybrid systems consist of photovoltaic (PV), wind turbine (WT), and battery energy storage system (BESS). In this work, three different scenarios are used to compare capacity credit: system as a whole, only wind, and no batteries. Finally, sensitivity analysis is carried out to examine the impact of varying the wind speed, solar irradiation, and load. It is demonstrated that the choice of reliability index plays an important role in determining the capacity credit and it is shown that EENS is a more comprehensive and consistent index of reliability.

Topics & Concepts

Reliability engineeringPhotovoltaic systemReliability (semiconductor)Renewable energySensitivity (control systems)Capacity optimizationWind powerGridTurbineEngineeringComputer scienceAutomotive engineeringPower (physics)Electrical engineeringElectronic engineeringMathematicsQuantum mechanicsGeometryPhysicsMechanical engineeringPower System Reliability and MaintenanceElectric Power System OptimizationOptimal Power Flow Distribution
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