Optimized operation of distributed energy resources: The opportunities of value stacking for Power-to-Gas aggregated with PV

“…In this case, with imbalance prices being again perfectly forecasted, the VPP fully exploits them within its technical boundaries to gain an economic benefit. 1 This economic benefit is even obtained by deliberately increasing the imbalance if the price differential between imbalance prices and P2G costs is positive. In this case, no additional constraints are added.…”

Optimized Operation of Distributed Energy Resources: The Opportunities of Value Stacking for Power-to-Gas Aggregated With PV

“…In this case, with imbalance prices being again perfectly forecasted, the VPP fully exploits them within its technical boundaries to gain an economic benefit. 1 This economic benefit is even obtained by deliberately increasing the imbalance if the price differential between imbalance prices and P2G costs is positive. In this case, no additional constraints are added.…”

Optimized Operation of Distributed Energy Resources: The Opportunities of Value Stacking for Power-to-Gas Aggregated With PV

“…Paper [1] comprehensively investigates the state-of-the-art optimization methods for hybrid energy systems of photovoltaics, diesel turbine generators, and energy storage systems, and lays the foundation for solving the intricate and complex real-world problems related to the operation of distributed energy systems; Paper [2] proposes a joint optimization and operation mechanism of distributed PV power generation market and the carbon market based on cross-chain trading technology from the perspective of the electric power market; Paper [3] puts forward a novel trading energy-based operation framework, which helps to ensure the economic operation of aggregators and users in the distributed PV distribution system; Paper [4] comprehensively reviews the development and impact of distributed PV in the electricity market, and discusses in detail the related market models and bidding strategies; Paper [5] proposes a novel distributed energy system integrating CHP, PV power generation, and ground-source heat pumps, and develops a new distributed energy system based on a hybrid of differential evolution and particle swarm optimization algorithm and hierarchical analysis method to develop a seasonal operation strategy; Paper [6] proposes a multi-stage and multi-period distributed energy optimization method based on deepening the market integration of distributed energy resources in the form of aggregation. Paper [7] establishes a bi-level planning model for distributed PV energy storage systems in distribution networks, taking into account the uncertainty of distributed PV power output and the demand response behavior of users in the context of the coordinated operation of China's power market and carbon market; Paper [8] combs through an analytical study of PV user demand response modeling and tariff mechanism from the perspective that PV user demand response can improve PV extinction rate.…”

Optimal Scheduling of Off-Site Industrial Production in the Context of Distributed Photovoltaic

Advanced modeling of PtG technology linked with conventional power station for CO2 recycling: A risk-adjusting techno-economic assessment