Distribution System Modeling with Distributed Energy Resources

Boldly rethinking how power flows at the edge of the grid, Distribution System Modeling with Distributed Energy Resources by Salah Bahramara, Pouria Sheikhahmadi, and Gianfranco Chicco delivers an authoritative, practical guide for engineers and planners tackling modern distribution networks.

Discover clear explanations of contemporary modeling techniques for integrating renewable generation, storage, electric vehicles, and inverter-based resources into low- and medium-voltage systems. The book translates complex concepts—unbalanced three-phase power flow, time-series simulations, dynamic behavior of inverters, and protection coordination—into actionable workflows that utility engineers, consultants, and researchers can apply immediately.

Written with global applicability, the text addresses challenges faced across Europe, North America, Asia-Pacific and emerging markets, making it a reliable reference for grid operators and policymakers working on smart grids, microgrids, and DER integration. Case studies and comparative examples illuminate practical trade-offs in modeling fidelity, computational efficiency, and planning horizons, helping you choose the right tools for system studies, planning, and real-time operations.

Whether you’re a power-systems professional seeking robust methods for simulation and control or a graduate student preparing for advanced research, this volume bridges theory and practice with clarity. Packed with tested methodologies and forward-looking perspectives on grid transformation, it empowers you to design resilient, efficient distribution systems.

Order your copy today to stay at the forefront of distribution system modeling and DER integration—an essential resource for anyone shaping the future of electricity networks.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.