Recently, waste heat recovery has enabled data centers to serve as energy prosumers with
flexible features that play essential roles in the coordination operation of integrated …

Most of the new technological changes in power systems are expected to take place in
distribution grids. The enormous potential for distribution flexibility could meet the …

In large distribution systems the solution of nonlinear power flow (PF) equations requires
high computational burden. To reduce complexity, various approximate linear PF methods …

Rising sustainability, environmental, and decarbonization considerations have prompted a
recent increase in the integration of inverter-based distributed energy resources (DER), such …

The optimal selection, sizing, and location of small-scale technologies within a grid-
connected distributed energy system (DES) can contribute to reducing carbon emissions …

In this work, we introduce Log (v) 3LPF, a linear power flow solver for unbalanced three-
phase distribution systems. Log (v) 3LPF uses a logarithmic transform of the voltage phasor …

The adoption of distributed energy resources such as photovoltaics (PVs) has increased
dramatically during the previous decade. The increased penetration of PVs into distribution …

This paper formulates an energy community's centralized optimal bidding and scheduling
problem as a time-series scenario-driven stochastic optimization model, building on real-life …

With the increased observability and controllability of distribution systems, the share of
behind-the-meter systems is trending upwards rapidly. As a consequence, the impact of …

Load flow analysis is essential for the effective operation and planning of power systems.
While non-linear methods provide high precision, their computational complexity poses …