A Study on DC Microgrids Voltages based on Photovoltaic and Fuel Cell Power Generators

Alam, Mohd; Kumar, Kuldeep; Srivastava, Jagendra; Dutta, Viresh

doi:10.1109/icrera.2018.8566854

Cited by 14 publications

(7 citation statements)

References 13 publications

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“…The figure shows the system's daily useful energy referred to the nominal power and the losses that occurred. Those losses include the collection losses that happened because of thermal, wiring, shading, or other inefficiencies [23], [24]. Also, the system loss which in the case of the proposed method happened because of inverter inefficiencies [25]- [27].…”

Section: Energy Output From Solar Cellmentioning

confidence: 99%

Effect of peak sun hour on energy productivity of solar photovoltaic power system

et al. 2022

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A solar cell is a type of renewable energy engineering technology that can convert photons coming from the sun to be converted into electrical energy. The amount of energy that can be converted by a solar cell is determined by the effective insolation time. Peak sun hours (PSH) are the focus of this research. This PSH analysis aims to determine the potential for solar energy obtained in geographical locations throughout the year. Geographical location and the position of the astronomical coordinates of a certain area affect PSH. Therefore, the orientation of solar panel installation, including the height, slope, and latitude of the solar panel surface needs to be considered in order to get maximum solar energy. The results of this study can be used by technicians in determining the orientation of solar panel development in an area.

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Section: Energy Output From Solar Cellmentioning

confidence: 99%

Effect of peak sun hour on energy productivity of solar photovoltaic power system

et al. 2022

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“…Boost converters have been successfully used in PV [61], fuel cell [62], battery [63,64] or rural electrification [65] applications. Nevertheless, due to their nonlinear dynamics, boost converter dynamics tend to be ignored in the system theoretical analysis.…”

Section: Boost Convertermentioning

confidence: 99%

Advanced Hierarchical Control and Stability Analysis of DC Microgrids

Braitor

2022

Springer Theses

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source is rigorously proven using ultimate boundedness theory. Asymptotic stability to the desired equilibrium for the closed-loop system is analytically guaranteed, and detailed conditions are derived to guide the control design. v In order to validate the effectiveness of the different control methodologies developed in this thesis, both simulation and experimental testing are performed for each one of the methods, and are also compared with the conventional approaches to highlight their superiority. vi xi 5.4 Simulation results of the system states of two parallel operated DC/DC boost converters under the proposed controller . . . . . . . . . . . . . 5.5 Simulation results of the controller states of two parallel operated DC/DC boost converters under the proposed controller . . . . . . . . 5.6 DC microgrid configuration with n paralleled unidirectional DC/DC boost converters feeding a common generic load.

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Section: Introductionmentioning

confidence: 99%

“…The blend of these two state-of-the-art technologies, DC microgrids and fuel cells, has already been proven to be practical and promising [3][4][5]. In [4], a comparison between three DC bus voltage levels was conducted to assess which factors impact the overall efficiency of the microgrid. It was concluded that the efficiency of the DC microgrid is strongly dependent on the voltage level, efficiency of the power converter and parasitic ohmic losses [4].…”

Section: Introductionmentioning

confidence: 99%

Buck-Boost DC-DC Converters for Fuel Cell Applications in DC Microgrids—State-of-the-Art

et al. 2022

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The use of fuel cells in DC microgrids has been receiving a lot of attention from researchers and industry since both technologies can deliver clean energy with little to no environmental impact. To effectively integrate fuel cells in DC microgrids, a power converter that can equate the fuel cell’s voltage with the DC microgrid’s reference voltage is required. Based on the typical output voltages of fuel cells, buck-boost topologies are commonly used in this type of application. A variety of DC-DC buck-boost topologies, showing distinctive merits and drawbacks, are available in the literature. Therefore, this paper compiles, compares and describes different DC-DC buck-boost topologies that have been introduced in the literature over the past few years. Additionally, some design considerations are addressed, and future work is proposed.

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A Study on DC Microgrids Voltages based on Photovoltaic and Fuel Cell Power Generators

Cited by 14 publications

References 13 publications

Effect of peak sun hour on energy productivity of solar photovoltaic power system

Effect of peak sun hour on energy productivity of solar photovoltaic power system

Advanced Hierarchical Control and Stability Analysis of DC Microgrids

Buck-Boost DC-DC Converters for Fuel Cell Applications in DC Microgrids—State-of-the-Art

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