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Tiago E. Castelo De Oliveira
Technological University of Eindhoven

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Chapter
Published: 23 April 2020 in Hosting Capacity for Smart Power Grids
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The impact of distributed generator (DG) can be quantified using a set of power quality (PQ) indicators that characterize its performance. In some cases, the performance will improve after the DG connection; in other cases, there might be negative impacts on the system. Nevertheless, it is important to realize that those performance indexes should not be exceeded and should be carefully analyzed in the context of their application. Moreover, the performance index is mostly defined as the HC that a system has in accepting renewable energy sources. In other words, the connection of DGs must respect the limits of the proposed PQ indicators. In this chapter, the concept of local hosting capacity will be applied through the evaluation of allowed voltage profile due to harmonic distortion. A presentation of hosting capacity analysis techniques regarding the use of more than one power quality index is also included in this chapter. It is important to highlight that this approach will be an introduction to the application of dynamic hosting capacity, which will be defined in Chap. 1. Moreover, the purpose of this chapter is to present a brief discussion on the definition of background harmonic distortion of electrical systems resulting from additional connections, such as consumers, distributed degeneration, and nonlinear loads, among others. Truthfully, high levels of background harmonic distortion can result in equipment malfunction; decrease the likelihood of meeting international standards, for example, IEEE 519 or IEEE 1547; as well as decrease the impact on the hosting capacity value of electrical systems. In Sect. 3.1, the definition and concept of background harmonic distortion will be presented in order to understand the motivation of our discussion. Thus, in Sects. 3.2 and 3.3, the applicability of analyzing the hosting capacity considering different power quality phenomena will be explained and applied through a study case.

ACS Style

Tiago E. Castelo De Oliveira; Paulo F. Ribeiro. A Methodology Proposal for Calculation of Hosting Capacity Including Different Power Quality Phenomena. Hosting Capacity for Smart Power Grids 2020, 35 -45.

AMA Style

Tiago E. Castelo De Oliveira, Paulo F. Ribeiro. A Methodology Proposal for Calculation of Hosting Capacity Including Different Power Quality Phenomena. Hosting Capacity for Smart Power Grids. 2020; ():35-45.

Chicago/Turabian Style

Tiago E. Castelo De Oliveira; Paulo F. Ribeiro. 2020. "A Methodology Proposal for Calculation of Hosting Capacity Including Different Power Quality Phenomena." Hosting Capacity for Smart Power Grids , no. : 35-45.

Chapter
Published: 23 April 2020 in Hosting Capacity for Smart Power Grids
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Conventional fossil fuel-based resources are affected by several problems, such as diminishing fuel resources, global fuel price instabilities, and greenhouse gas emissions, particularly gases such as carbon dioxide and carbon monoxide which adversely affect the environment. Currently, renewable energy-based power generation is rapidly emerging across the world in response to technical, economic, and environmental developments, as well as political and social initiatives. Now, renewable energy-based power generation is being rapidly developed, worldwide, thanks to various technical, economic, and environmental factors and political and social initiatives [1–3].

ACS Style

Tiago E. Castelo De Oliveira; Paulo F. Ribeiro; Ahmed F. Zobaa; Shady H. E. Abdel Aleem; Sherif M. Ismael. An Overview of Hosting Capacity for Modern Power Grids. Hosting Capacity for Smart Power Grids 2020, 1 -9.

AMA Style

Tiago E. Castelo De Oliveira, Paulo F. Ribeiro, Ahmed F. Zobaa, Shady H. E. Abdel Aleem, Sherif M. Ismael. An Overview of Hosting Capacity for Modern Power Grids. Hosting Capacity for Smart Power Grids. 2020; ():1-9.

Chicago/Turabian Style

Tiago E. Castelo De Oliveira; Paulo F. Ribeiro; Ahmed F. Zobaa; Shady H. E. Abdel Aleem; Sherif M. Ismael. 2020. "An Overview of Hosting Capacity for Modern Power Grids." Hosting Capacity for Smart Power Grids , no. : 1-9.

Journal article
Published: 04 July 2019 in Energies
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The hosting capacity approach is presented as a planning, improving, and communication tool for electrical distribution systems operating under specific uncertainties, such as power quality issues, power stabilities, and reliability, among others. In other words, it is an important technique, when renewable sources are present, to answer the amount of power that is possible to supply to the system without trespassing power performance limits. However, the power flow in a distribution system, for instance, can change throughout time due to the penetration of distributed generation, as well as load consumption. Based on the dynamic nature existing in distribution grids nowadays, it is important to highlight that the hosting capacity should not be calculated in a specifically chosen time only, but must be analyzed throughout a period of time. Thus, this paper introduces an extended concept of hosting capacity in relation to an integrated impact of harmonic voltage distortion and voltage rise as a function of time for daily, weekly, monthly, or even yearly periods. This extended concept is named as Dynamic Hosting Capacity (DHC(t)). General aspects of DHC(t) are demonstrated via measured data on a photovoltaic system (PV) connected at a low-voltage (LV) side of a university building.

ACS Style

Tiago Elias Castelo De Oliveira; Math Bollen; Paulo Fernando Ribeiro; Pedro M. S. De Carvalho; Antônio C. Zambroni; Benedito D. Bonatto. The Concept of Dynamic Hosting Capacity for Distributed Energy Resources: Analytics and Practical Considerations. Energies 2019, 12, 2576 .

AMA Style

Tiago Elias Castelo De Oliveira, Math Bollen, Paulo Fernando Ribeiro, Pedro M. S. De Carvalho, Antônio C. Zambroni, Benedito D. Bonatto. The Concept of Dynamic Hosting Capacity for Distributed Energy Resources: Analytics and Practical Considerations. Energies. 2019; 12 (13):2576.

Chicago/Turabian Style

Tiago Elias Castelo De Oliveira; Math Bollen; Paulo Fernando Ribeiro; Pedro M. S. De Carvalho; Antônio C. Zambroni; Benedito D. Bonatto. 2019. "The Concept of Dynamic Hosting Capacity for Distributed Energy Resources: Analytics and Practical Considerations." Energies 12, no. 13: 2576.