DOI: 10.1016/J.ENCONMAN.2016.10.025 Corpus ID: 100436015; Development, analysis and assessment of a fuel cell and solar photovoltaic system powered vehicle @article{Ezzat2016DevelopmentAA, title={Development, analysis and assessment of a fuel cell and solar photovoltaic system powered vehicle}, author={Muhammad F. Ezzat and Ibrahim
Fig. 8 (c) illustrates that the efficiency of the photovoltaic-electrolyzer-fuel cell system firstly increases with the solar radiation intensity from nearly 6.1% to 6.6% since the efficiency of the photovoltaic module grows slightly from 13% to 15% when the solar radiation intensity rises from 0 to 500 W m −2, but then decreases with the
solar energy; photovoltaic-fuel cell system; integrated energy system; power generation; PV, fuel cell and batteries can supply power to the load. electric vehicles and fuel cell electric
Besides single PV panels, several configurations were also studied including PV technology such as an on-grid PV plant [30], a PV-fuel cell powered vehicle [31], various integrated PV-based energy
photovoltaic array, 7 kW fuel cell system, 14 kW power inverter and 3 kW electrolyzer with 8 kg hydrogen storage tank can sustainably augment the erratic grid with a very high renewable fraction
This paper deals with an energy management problem to ensure the best performance of the recharging tools used in electric vehicles. The main objective of this work is to find the optimal condition for controlling a
This paper deals with a new hybridly powered photovoltaic-fuel cell - Li-ion battery integrated system and is compared to a base system, consisting of PEM fuel cell and Li-ion battery. It investigates the effects of adding photovoltaic arrays to the base system and further effects on the overall energy and exergy efficiencies and hence hydrogen
A hybrid power system based on fuel cell, photovoltaic source.pdf A hybrid power system based on fuel cell, photovoltaic source and supercapacitor.pdf Available via license: CC BY 4.0
DOI: 10.1016/J.IJHYDENE.2011.08.058 Corpus ID: 93082308; Generation of high-pressure hydrogen for fuel cell electric vehicles using photovoltaic-powered wate @article{Kelly2011GenerationOH, title={Generation of high-pressure hydrogen for fuel cell electric vehicles using photovoltaic-powered wate}, author={Nelson A. Kelly and Thomas L. Gibson
Renewable energy solutions play a crucial role in addressing the growing energy demands while mitigating environmental concerns. This study examines the techno-economic viability and sensitivity of utilizing solar photovoltaic/polymer electrolyte membrane (PEM) fuel cells (FCs) to meet specific power demands in NEOM, Saudi Arabia. The novelty of this study
This paper deals with a new hybridly powered photovoltaic- PEM fuel cell – Li-ion battery and ammonia electrolyte cell integrated system (system 2) for vehicle application and is compared to another system (system 1) that is consisting of a PEM fuel cell, photovoltaic and Li-ion battery. The paper aims to investigate the effect of adding photovoltaic to both systems
DOI: 10.1016/J.IJHYDENE.2017.05.065 Corpus ID: 103215065; Development, analysis and assessment of fuel cell and photovoltaic powered vehicles @article{Ezzat2018DevelopmentAA, title={Development, analysis and assessment of fuel cell and photovoltaic powered vehicles}, author={Muhammad F. Ezzat and Ibrahim Dincer},
The average daily electricity generation from the solar-powered bus PV system was approximately 2.7 kWh. Mohamed et al. [26] proposed a hybrid energy control system for electric vehicles that utilizes a PV cell and a fuel cell, and conducted simulations using MATLAB/Simulink. The results showed that the system improved the vehicle''s
PVFCHEV (Photovoltaic Fuel cell Hybrid Electric Vehicle) system, including the vehicle''s power supply, controllers and electric vehicle is modelled in detail in the MATLAB/SIMULINK environment. A fuzzy logic controller is designed which aims to the effective utilization of fuel cell at different levels of irradiation and battery charge state.
4.1 The Fast Irradiance Variability and Partial Shading of the PV Cells. The fact that vehicles are in continuous motion generates variable irradiance, mainly caused by the partial shading of the photovoltaic panels [] due to the structures close to the road such as poles, chimneys, raised buildings, etc nsequently, a large changeability in the DC voltage of the
An artificial intelligence-based methodology was employed for analysing and optimising a grid-tied solar photovoltaic-FC hybrid power system. and Performance Analysis of an Autonomous Marine Vehicle Powered by a Fuel Cell Hybrid Powertrain. Analysis and Optimization of Grid-Tied Solar PV-Fuel Cell Hybrid Power Systems for Enhanced
Climate change necessitates urgent action to decarbonize the transport sector. Sustainable vehicles represent crucial alternatives to traditional combustion engines. This study comprehensively compares four prominent sustainable vehicle technologies: biofuel-powered vehicles (BPVs), fuel cell vehicles (FCVs), electric vehicles (EVs), and solar vehicles. We
The power management strategy (PMS) is intimately linked to the fuel economy in the hybrid electric vehicle (HEV). In this paper, a hybrid power management scheme is proposed; it consists of an adaptive neuro-fuzzy inference method (ANFIS) and the equivalent consumption minimization technique (ECMS). Artificial intelligence (AI) is a key development
Automobile power systems are increasingly in need of renewable and clean energy sources such as solar energy and fuel cells in the context of global warming. This article investigates the feasibility of a
The first week was also cloudier, leading to very low solar PV production. From the power flows in Fig. 7 a, it is interesting to note how solar PV and FCEV power production complement each other. During the day, the solar panels produced electricity, while during the night the FCEV did so.
This paper deals with an energy management problem to ensure the best performance of the recharging tools used in electric vehicles. The main objective of this work is to find the optimal condition for controlling a hybrid recharging system by regrouping the photovoltaic cells and fuel cells. The photovoltaic and fuel cell systems were connected in parallel via two
Development, analysis and assessment of a fuel cell and solar photovoltaic system powered vehicle. MF Ezzat, I Dincer. Energy conversion and management 129, 284-292, 2016. 81: Exergoeconomic analysis and optimization of a new hybrid fuel cell vehicle. M Ezzat, I Dincer. International Journal of Hydrogen Energy 45 (9), 5734-5744, 2020. 31: 2020:
The solar cell is described as a light current source I L generated according to the solar irradiance. The diode is representing the P–N junction, which built-in inside the solar cell according to the movement of the electrons. Optimal management of hybrid PV/fuel cell/battery power system: a comparison of optimal hybrid approaches
This paper deals with a new hybridly powered photovoltaic-fuel cell - Li-ion battery integrated system and is compared to a base system, consisting of PEM fuel cell and
The results showed that a hybrid system comprising 54.7kW photovoltaic array, 7kW fuel cell system, 14kW power inverter and 3kW electrolyzer with 8kg hydrogen storage tank can sustainably augment
With the continuous downward trend on the price of photovoltaic (PV) modules, solar power is recognized as the competitive source for this purpose [3].Furthermore, PV system is almost maintenance free, both in terms of fuel and labor [4].The application of PV is further enhanced by the advancement in conversion technologies, battery management as well as the
fuel cell and solar photovoltaic system powered vehicle. Energ. Conver Manage. 2016;129:284-292. 8. This converter actively accommodates fuel cell and solar photovoltaic (PV) panel as sources
As the photovoltaic (PV) industry continues to evolve, advancements in a fuel cell and solar photovoltaic system powered vehicle have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.
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