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Constant power loads and their effects in DC distributed power systems: A review

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  • Singh, Suresh
  • Gautam, Aditya R.
  • Fulwani, Deepak

Abstract

The penetration of dc distributed power systems is increasing rapidly in electric power grids and other isolated systems to cater demand for cheap, clean, high quality, and uninterrupted power demand of modern society. DC systems are more efficient and suite better to integrate some of the renewable energy sources, storage units, and dc loads. A dc distributed power system usually consists of large number of power electronic converters connected in cascad0ed configuration to satisfy the power quality and voltage magnitude requirements of the sources and loads. Tightly-regulated power converters in the aforementioned settings exhibit negative incremental impedance and behave as constant power loads (CPLs), and tend to destabilize their feeder systems and upstream converters. The presence of CPLs reduces effective damping of the system leading to instability of the whole system and present significant challenge in the system operation and control. In-depth knowledge of the instability effects of constant power loads (CPLs), available stabilizing techniques and stability analysis methods, is imperious to the young researchers, system designers, system integrators, and practicing engineers working in the field of dc power systems and emerging applications of dc power. This paper is intended to fill this gape by documenting present state of the art and research needs in one article. Modeling, behaviour and effects of typical CPL are discussed and a review of stability criteria used to study the stability of dc power systems are reviewed with their merits and limitations. Furthermore, available literature is reviewed to summarize the techniques to compensate the CPL effect. Finally, discussion and recent challenges in the dc distribution systems.

Suggested Citation

  • Singh, Suresh & Gautam, Aditya R. & Fulwani, Deepak, 2017. "Constant power loads and their effects in DC distributed power systems: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 72(C), pages 407-421.
    • Handle: RePEc:eee:rensus:v:72:y:2017:i:c:p:407-421
    DOI: 10.1016/j.rser.2017.01.027
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    References listed on IDEAS

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    3. Justo, Jackson John & Mwasilu, Francis & Lee, Ju & Jung, Jin-Woo, 2013. "AC-microgrids versus DC-microgrids with distributed energy resources: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 24(C), pages 387-405.
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    6. Mohammed Kh. AL-Nussairi & Ramazan Bayindir & Sanjeevikumar Padmanaban & Lucian Mihet-Popa & Pierluigi Siano, 2017. "Constant Power Loads (CPL) with Microgrids: Problem Definition, Stability Analysis and Compensation Techniques," Energies, MDPI, vol. 10(10), pages 1-20, October.
    7. Jorge Luis Anderson Azzano & Jerónimo J. Moré & Paul F. Puleston, 2019. "Stability Criteria for Input Filter Design in Converters with CPL: Applications in Sliding Mode Controlled Power Systems," Energies, MDPI, vol. 12(21), pages 1-19, October.
    8. Martín-Antonio Rodríguez-Licea & Francisco-Javier Pérez-Pinal & Jose-Cruz Nuñez-Perez & Carlos-Alonso Herrera-Ramirez, 2018. "Nonlinear Robust Control for Low Voltage Direct-Current Residential Microgrids with Constant Power Loads," Energies, MDPI, vol. 11(5), pages 1-20, May.
    9. Srivastava, Chetan & Tripathy, Manoj, 2021. "DC microgrid protection issues and schemes: A critical review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 151(C).
    10. Sheng Liu & Peng Su & Lanyong Zhang, 2018. "A Nonlinear Disturbance Observer Based Virtual Negative Inductor Stabilizing Strategy for DC Microgrid with Constant Power Loads," Energies, MDPI, vol. 11(11), pages 1-22, November.
    11. Arcia-Garibaldi, Guadalupe & Cruz-Romero, Pedro & Gómez-Expósito, Antonio, 2018. "Future power transmission: Visions, technologies and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 94(C), pages 285-301.
    12. Christos Yfoulis & Simira Papadopoulou & Spyridon Voutetakis, 2020. "Robust Linear Control of Boost and Buck-Boost DC-DC Converters in Micro-Grids with Constant Power Loads," Energies, MDPI, vol. 13(18), pages 1-21, September.
    13. Maximiliano Lainfiesta Herrera & Hassan S. Hayajneh & Xuewei Zhang, 2021. "DC Communities: Transformative Building Blocks of the Emerging Energy Infrastructure," Energies, MDPI, vol. 14(22), pages 1-8, November.
    14. Chen, Xia & Zhou, Jianyu & Shi, Mengxuan & Chen, Yin & Wen, Jinyu, 2022. "Distributed resilient control against denial of service attacks in DC microgrids with constant power load," Renewable and Sustainable Energy Reviews, Elsevier, vol. 153(C).
    15. Charalambous, Chrysanthos & Heracleous, Chryso & Michael, Aimilios & Efthymiou, Venizelos, 2023. "Hybrid AC-DC distribution system for building integrated photovoltaics and energy storage solutions for heating-cooling purposes. A case study of a historic building in Cyprus," Renewable Energy, Elsevier, vol. 216(C).
    16. Flavio Balsamo & Davide Lauria & Fabio Mottola, 2019. "Design and Control of Coupled Inductor DC–DC Converters for MVDC Ship Power Systems," Energies, MDPI, vol. 12(4), pages 1-20, February.

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