Techno-economical evaluation of a hydrogen refuelling station powered by Wind-PV hybrid power system: A case study for İzmir-Çeşme

Gökçek, Murat; Kale, Cihangir

doi:10.1016/j.ijhydene.2018.01.082

Cited by 207 publications

(37 citation statements)

References 26 publications

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“…The formula of PV array output considering the temperature effect can be written as 24,25 The radiation intensity directly determines the PV output.…”

Section: Power Output Model Of Pv Arraymentioning

confidence: 99%

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Implementation of repowering optimization for an existing photovoltaic‐pumped hydro storage hybrid system: A case study in Sichuan, China

Cao

et al. 2019

Int J Energy Res

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Summary For a remote area or an isolated island, where the grid has not extended, a standalone hybrid energy system can provide cheap and adequate power for local users. However, with the development of society, the load demand will increase and the original system cannot completely meet the load demand. This situation occurs in Xiaojin, Sichuan, China. The existing photovoltaic‐pumped hydro storage (PV‐PHS) hybrid system in this area as the original system cannot completely meet the load requirements at present. The term “repowering” aims to maximize the reliability of power supply and the utilization of the PV‐PHS hybrid energy system that differs from traditional planning optimization to build all components. The repowering strategy is to integrate wind turbines (WTs) and battery into the original system. For the repowering system, a power management strategy is proposed to determine the operating modes of the PHS and battery. Three objectives, which are minimizing percentage of the demand not supplied, levelized cost of energy, and curtailment rate of renewable energy, are considered in the optimization model. Simulation is conducted by single‐objective, biobjective, and triobjective particle swarm optimization (PSO) techniques. For the single‐objective optimization, the comparison of PSO and genetic algorithm (GA) is made. For the double‐objective optimization, multiobjective PSO (MOPSO) is compared with weighted sum approach (WSA), and fuzzy satisfying method is utilized to find the win‐win solution. The results reveal that the repowering strategy can help to achieve maximum reliability of power supply after load demand increases significantly, and the battery plays an important role in such a hybrid system.

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“…The formula of PV array output considering the temperature effect can be written as 24,25 The radiation intensity directly determines the PV output.…”

Section: Power Output Model Of Pv Arraymentioning

confidence: 99%

“…In this paper, PV output takes the influence of temperature into account. The formula of PV array output considering the temperature effect can be written as 24,25…”

Section: Power Output Model Of Pv Arraymentioning

confidence: 99%

Implementation of repowering optimization for an existing photovoltaic‐pumped hydro storage hybrid system: A case study in Sichuan, China

Cao

et al. 2019

Int J Energy Res

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“…Another study [24] looked at optimization and evaluation of a wind, so-lar and fuel cell hybrid system supplying electricity to a remote district on the national grid. Gökçek et al [25] performed a techno-economical evaluation of a hydrogen refuelling station powered by a wind-PV hybrid power system, in a case study forİzmir-Çeşme. Other research has been done to optimize renewable energy at the lowest cost [26,27,28,29].…”

Section: Introductionmentioning

confidence: 99%

Design and simulation of a hybrid system based on renewable energy for hydrogen production

Alayi¹,

Kamarposhti

Gharibi³

et al. 2021

Preprint

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Transitioning to renewable energy is part of the answer to, on the one hand, growing industrial development and the rising demand for energy and, on the other, environmental concerns and the need to preserve fossil fuel resources for future generations. This research focuses on the potential for integrating hydrogen storage into a highly reliable renewable energy system. The purpose of this study is to determine the potential of renewable energy in an Iranian location, in a project that looks at a power grid in various connected and disconnected scenarios involving hydrogen storage. The energy potential is identified: annual production capacity is 2218818 kW, requiring a total investment outlay of US$697,624.

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“…Water electrolysis powered by renewables is investigated in a couple of studies [11][12][13][14][15][16][17][18], however, only a few deal with the potential benefits of water electrolysis buffered by battery systems for hydrogen production. Gökcek et al investigated and optimized a system of PV, wind power, electrolyzer, battery, hydrogen storage and compression for refueling 25 hydrogen vehicles per day using a techno-economical model [13]. The optimized system achieved hydrogen costs of 7.5 $ kg -1 for battery costs as low as 110 $ per kWh (lead acid batteries).…”

Section: Introductionmentioning

confidence: 99%

Battery‐Buffered Alkaline Water Electrolysis Powered by Photovoltaics

Becker

Brauns

Turek

2021

Chemie Ingenieur Technik

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The combination of an alkaline water electrolyzer (AWE) with a battery system powered by photovoltaics (PV) for the production of green hydrogen is investigated. A model describes the power distribution between these three subsystems (AWE, battery and PV). Variation of AWE and battery power and capacity is carried out for two locations, to identify the most appropriate setup, where the highest energy usage and operating time can be reached. The battery helps to reduce the power level of the AWE. However, an estimation of the costs indicates that further optimization is necessary.

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Techno-economical evaluation of a hydrogen refuelling station powered by Wind-PV hybrid power system: A case study for İzmir-Çeşme

Cited by 207 publications

References 26 publications

Implementation of repowering optimization for an existing photovoltaic‐pumped hydro storage hybrid system: A case study in Sichuan, China

Implementation of repowering optimization for an existing photovoltaic‐pumped hydro storage hybrid system: A case study in Sichuan, China

Design and simulation of a hybrid system based on renewable energy for hydrogen production

Battery‐Buffered Alkaline Water Electrolysis Powered by Photovoltaics

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