Towards Prosumer Flexibility Markets: A Photovoltaic and Battery Storage Model

“…Positive flexibility is used when the grid faces any deficit of energy and the prosumer feeds-in additional energy or refrains from withdrawing any scheduled grid charging. Typical example of these flexibility types is curtailment of PV feed-in as negative flexibility service 𝑝 𝑡,𝑓𝑙𝑒𝑥 − 𝑝𝑣 and the positive flexibility service 𝑝 𝑡,𝑓𝑙𝑒𝑥 + bes which corresponds to refrain from charging the battery Figure 1 Optimal operation schedule with PV-BES systems [9] at scheduled time step. A basic representation of the flexibility power calculation of the PV and battery systems are shown using the equations 6-8.…”

“…The flexibility equations are solved considering the device constraints such as SOC limits, charging limits, etc. A detailed understanding on the flexibility quantification can be gathered from [9].…”

“…Fonteijn et al demonstrates a generic four step congestion management approach using prosumer flexibility [6]. Several methods have also been proposed to quantify the flexibility from prosumers devices such photovoltaics (PV) and battery system, electric vehicles, heat pumps to allow interaction of prosumers with the DSOs using flexibility markets [7][8][9].…”

Does Oversizing Improve Prosumer Profitability in a Flexibility Market? - A Sensitivity Analysis using PV-battery System

“…Positive flexibility is used when the grid faces any deficit of energy and the prosumer feeds-in additional energy or refrains from withdrawing any scheduled grid charging. Typical example of these flexibility types is curtailment of PV feed-in as negative flexibility service 𝑝 𝑡,𝑓𝑙𝑒𝑥 − 𝑝𝑣 and the positive flexibility service 𝑝 𝑡,𝑓𝑙𝑒𝑥 + bes which corresponds to refrain from charging the battery Figure 1 Optimal operation schedule with PV-BES systems [9] at scheduled time step. A basic representation of the flexibility power calculation of the PV and battery systems are shown using the equations 6-8.…”

“…The flexibility equations are solved considering the device constraints such as SOC limits, charging limits, etc. A detailed understanding on the flexibility quantification can be gathered from [9].…”

“…Fonteijn et al demonstrates a generic four step congestion management approach using prosumer flexibility [6]. Several methods have also been proposed to quantify the flexibility from prosumers devices such photovoltaics (PV) and battery system, electric vehicles, heat pumps to allow interaction of prosumers with the DSOs using flexibility markets [7][8][9].…”

Does Oversizing Improve Prosumer Profitability in a Flexibility Market? - A Sensitivity Analysis using PV-battery System

“…Furthermore, the increasing decentralisation of the energy system requires greater flexibility at the distribution grid level, for example, stronger load balancing 4 . Such flexibility in the distribution grid can be initially offered by the decentralised energy units and prosumers in buildings and city districts, such as heat pumps, heat storage, photovoltaic (PV) battery systems, charging stations for electric vehicles and so forth 4–7 . Moreover, the small decentralised energy units can be pooled together to provide a higher amount of flexibility.…”

“…4 Such flexibility in the distribution grid can be initially offered by the decentralised energy units and prosumers in buildings and city districts, such as heat pumps, heat storage, photovoltaic (PV) battery systems, charging stations for electric vehicles and so forth. [4][5][6][7] Moreover, the small decentralised energy units can be pooled together to provide a higher amount of flexibility. However, the energy units in buildings are not installed to provide flexibility, but for other purposes, such as heating, hot water treatment and increasing self-consumption.…”

Quantifying power and energy fluctuations of photovoltaic systems

Distribution Grid Modelling and Particle Swarm Optimization for Electric Vehicles Flexibility