Review of MVDC Applications, Technologies, and Future Prospects

Coffey, Sophie; Timmers, Victor R.J.H.; Li, Rui; Wu, Guotao; Egea‐Àlvarez, Agustí

doi:10.3390/en14248294

Cited by 36 publications

(24 citation statements)

References 153 publications

(308 reference statements)

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“…The proliferation of VRE inverters promises a seamless transition from existing AC-based transmission systems to DC-based systems of constant frequency (i.e., zero). DC applications are slowly but steadily growing in the form of high-voltage DC (HVDC) transmission systems and medium-and lower-voltage DC (MVDC and LVDC) distribution systems [46]. Fundamental decisions should then include, for example, the selection of suitable indicating parameters in the AC/DC hybrid grid, the role of frequency relative to the rotational speed of a synchronous machine, and the sensitivity of frequency-dependent loading.…”

Section: Frequency and Voltage Stabilitiesmentioning

confidence: 99%

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

et al. 2022

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The attainment of carbon neutrality requires a research agenda that addresses the technical and economic challenges that will be encountered as we progress toward 100% renewable electricity generation. Increasing proportions of variable renewable energy (VRE) sources (such as wind turbines and photovoltaic systems) render the supply-and-demand balance of VRE-dominated power grids difficult. The operational characteristics and effects of VRE inverters also require attention. Here, we examine the implications of the paradigm shift to carbon neutrality and summarize the associated research challenges in terms of system planning, operation, and stability, and the need for energy storage integration, demand-side participation, distributed control and estimation, and energy sector coupling. We also highlight the existing literature gaps, and our recent studies that can fill in the gaps, thereby facilitating the improvement of grid operation and estimation. The numerical results of comparative case studies are also provided on the operational stability and economics of power grids with a high level of VRE sources, assisting stakeholders in establishing specific roadmaps and making relevant decisions.

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Section: Frequency and Voltage Stabilitiesmentioning

confidence: 99%

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

et al. 2022

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“…Due to recent progress in power electronic conversionrelated devices, several scenarios result in the advantageous implementation of DC technology instead of traditional AC [1]. In particular, considering the greater utilization of DC based Distributed Generator (DG) and load demands, research activities consider the deployment of DC sub-networks alongside AC power in future distribution grids, connecting the DC generation to the DC consumption and reducing the number of conversion stages [2]. The reliability of electrical distribution grids is a fundamental aspect to be analyzed and guaranteed so that the network can withstand and recover from faults occurrences, ensuring the continuous power supply to end customers [3].…”

Section: Introductionmentioning

confidence: 99%

Objectives, Requirements and Implementation of a Service Restoration Algorithm for AC-DC Distribution Grids

Dognini

Ponci

Monti

2022

2022 International Conference on Smart Energy Systems and Technologies (SEST)

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With the increasing penetration of DC based devices and the improving performance of power electronics converters, more and more advantages foster the deployment of hybrid AC-DC distribution grids. Although the operating control of AC-DC grids is consistently studied in the literature, several protection aspects need further analysis. This paper focuses on the reliability of AC-DC distribution grids, proposing a Service Restoration (SR) algorithm to efficiently re-energize the disconnected nodes in case of electrical faults. To determine the SR solution, the algorithm inspects multiple criteria together: the number of reconnected nodes, the minimization of power losses, the presence of telecontrolled switches, the criticality of the nodes facilities and the restoration feasibility according to power forecasts. The evaluation of reconfiguration topologies is based on the operational limits of AC-DC converters and energy sources; additionally, the power transfer is controlled by setting as optimization objective the losses minimization. The conducted tests, considering different load and generation configurations, prove the applicability of the proposed algorithm in evaluating the feasibility of reconfiguration topologies and computing the near-optimal SR solution.

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“…Die mit der Energiewende für die Erzielung der Klimaziele eingeleitete Transformation der elektrischen Energieversorgung führt zu einem deutlichen Ausbaubedarf in den elektrischen Verteil-und Übertragungsnetzen. Für die Verteilnetze in der Mittelspannungsebene kann die innovative Mittelspannungs-Gleichstromübertragung (MGÜ) einen wichtigen Beitrag leisten und zu einem sicheren und wirtschaftlichen Netzbetrieb beitragen [1][2][3][4][5][6]. MGÜ-Anwendungen können dabei unter anderem für die verlustarme Einbindung von dezentralen Erzeugungsanlagen, die…”

Section: Introductionunclassified

Mittelspannungs-Gleichstromübertragung – Übertragungskapazität und Wirtschaftlichkeit von Kabelstrecken

Schichler

Ratheiser

2022

Elektrotech. Inftech.

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ZusammenfassungDie mit der Energiewende für die Erzielung der Klimaziele eingeleitete Transformation der elektrischen Energieversorgung führt zu einem deutlichen Ausbaubedarf in den elektrischen Verteil- und Übertragungsnetzen. Für die Verteilnetze in der Mittelspannungsebene kann die innovative Mittelspannungs-Gleichstromübertragung einen wichtigen Beitrag leisten und zu einem sicheren und wirtschaftlichen Netzbetrieb beitragen. Im Vergleich mit MDÜ-Kabelstrecken können bipolare MGÜ-Kabelstrecken bei Verwendung identischer VPE-isolierter Mittelspannungskabel eine deutlich höhere Übertragungskapazität aufweisen. Die Betrachtung der Wirtschaftlichkeit von MGÜ-Kabelstrecken erfolgt auf der Basis der Übertragungsverluste, wobei die Anwendung einer MGÜ dabei bereits für kurze Streckenlängen zu einer deutlichen Reduktion der Übertragungsverluste führt.

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Review of MVDC Applications, Technologies, and Future Prospects

Cited by 36 publications

References 153 publications

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

Research Needs for Realization of Zero-Carbon Power Grids with Selected Case Studies

Objectives, Requirements and Implementation of a Service Restoration Algorithm for AC-DC Distribution Grids

Mittelspannungs-Gleichstromübertragung – Übertragungskapazität und Wirtschaftlichkeit von Kabelstrecken

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