Summary
The transition from fossil fuels to renewable energies such as wind and solar is being encouraged worldwide. Renewable energy investment costs have been dropping, which, combined with growing incentives, has led to a rapid rise in renewable capacity. These changes in the electricity market entail great challenges and uncertainties, specifically due to resource availability. Wind and solar energy depend on seasonal weather conditions to generate energy, such as wind and radiation, respectively. However, few studies have focused on analyzing and measuring the impact of a progressive increase of renewable energy in a short-term electricity market and its effect on energy security. We developed a System Dynamics model to be able to analyze alternative scenarios and levels of uncertainties. We studied the impact of different shares of renewable sources on economic dispatch and energy security through reliability, reserve margin, resilience, and vulnerability measures. High shares of renewable resources (>60%) impact the energy security—reliability (< 98%), reserve margin (<−2%), resilience (>4%), and vulnerability—and may lower the spot price due to zero variable costs, which reduce the profitability of conventional firms in the short term and give closure to firms in the middle term and long term.