论文信息 - Distributed asynchronous supply coordination for energy producers embedded in the energy grids

Distributed asynchronous supply coordination for energy producers embedded in the energy grids

This paper studies the congestion control and energy flow allocation of renewable energy producers equipped with local energy storage devices and energy converters. The producers are embedded in the existing energy grids. Based on the producers' own measurements and some coordination with the grid operators, the energy producers adjust locally their supply levels injected to the energy grids so as to maximize their profit without exceeding the grid capacities. We incorporate an asynchronous implementation in the distributed supply coordination and prove its convergence. We implement the proposed algorithm for Power-to-Gas facilities embedded in the energy grids, which consist of a gas grid, mobility sector, and power grid, to demonstrate that the distributed asynchronous supply coordination achieves the same optimal performances as those of the synchronized distributed supply coordination.

Jacquelien M. A. Scherpen | Ming Cao | Desti Alkano

[1] K. Schittkowski,et al. NONLINEAR PROGRAMMING , 2022 .

[2] R. Srikant,et al. A tutorial on cross-layer optimization in wireless networks , 2006, IEEE Journal on Selected Areas in Communications.

[3] Ao Tang,et al. Equilibrium of Heterogeneous Congestion Control: Existence and Uniqueness , 2007, IEEE/ACM Transactions on Networking.

[4] Javad Lavaei,et al. Power flow optimization using positive quadratic programming , 2011 .

[5] Jacqueline M.A. Scherpen,et al. Optimal control in a micro gas grid of prosumers using Model Predictive Control , 2014 .

[6] A. Mas-Colell,et al. Microeconomic Theory , 1995 .

[7] Steven H. Low,et al. Optimization flow control—I: basic algorithm and convergence , 1999, TNET.

[8] Stephen P. Boyd,et al. Dynamic Network Utility Maximization with Delivery Contracts , 2008 .

[9] Mung Chiang,et al. Balancing transport and physical Layers in wireless multihop networks: jointly optimal congestion control and power control , 2005, IEEE Journal on Selected Areas in Communications.

[10] Marimuthu Palaniswami,et al. Optimal flow control and routing in multi-path networks , 2003, Perform. Evaluation.

[11] C. Schwaegerl,et al. Ancillary services for renewable integration , 2009, 2009 CIGRE/IEEE PES Joint Symposium Integration of Wide-Scale Renewable Resources Into the Power Delivery System.