Hybrid pumped hydro and battery storage for renewable energy based power supply system

Javed, Muhammad; Zhong, Dan; Song, Aotian; Ahmed, S.

doi:10.1016/j.apenergy.2019.114026

Cited by 189 publications

(59 citation statements)

References 38 publications

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“…The installed global capacity of renewable energy grows steadily every year, and more environmentally friendly and cost-effective facilities are designed according to the specificity of the site [17,18,20].…”

Section: Discussionmentioning

confidence: 99%

“…Ma and Javed [19] present an integrated design of a hybrid system with solar, wind and battery storage considering the saturation limits for each source, based on economic and technical indexes. Javed et al [20] propose a hybrid system with stored pumping and batteries as an off-grid renewable energy system. The authors use a new operating strategy based on the maximum extraction of energy stored at the point of maximum PAT efficiency, with the battery used only to meet very low levels of load.…”

Section: Introductionmentioning

confidence: 99%

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Using hydropower waterway locks for energy storage and renewable energies integration

et al. 2020

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Using hydropower waterway locks for energy storage and renewable energies integration

et al. 2020

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“…Among all rechargeable batteries, lead‐acid and Li‐ion are always considered to be a premium choice for microgrids due to fast and steady response time, small self‐discharge rate (less than 0.3%), low capital cost, and good cycle efficiency (63%‐90%) 47 . Due to the superior cost and performance properties of lead‐acid batteries, they constitute 75% of the renewable energy conversion devices market 48‐50 . It is possible to achieve a high voltage by just connecting lead‐acid battery cells in series.…”

Section: Methodsmentioning

confidence: 99%

Optimal sizing of off‐grid hydrokinetic‐based hybrid renewable power systems for a house load demand

Gökçek

Kale

2021

Int J Energy Res

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Summary The usage of stand‐alone power systems represents an excellent choice for remote communities that are impossible to couple to the electricity distribution network practicably. The current research aims to design a no grid tied hybrid system on the basis of a PV‐wind turbine‐hydrokinetic turbine and diesel generator, for the purpose of meeting the electricity needs of a house near the Seyhan River, Turkey. A software that performs hybrid optimization of systems that can generate energy using different energy sources was utilized for modeling the operation of systems and identifying the appropriate architecture. In the current research, simulations were carried out for eight different (off‐grid) power systems. The best optimized off‐grid hybrid power system comprises a photovoltaic array of 7.87 kW, two wind turbines, one hydrokinetic turbine, a diesel generator of 7 kW, lead‐acid batteries of 49 kWh, and a converter of 4.95 kW. The results of the present research demonstrated that the total net present cost was $161 327.08, while the levelized cost of electricity was $0.609/kWh for the optimized system. Furthermore, the renewable usage fraction and carbon dioxide emissions are 26.4% and 838.63 kg/year, respectively. In accordance with the simulation findings, the wind‐hydrokinetic power system has higher levelized cost of electricity and total net present cost in comparison with other power generation systems.

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“…Furthermore, the strategy selects Mujib as the only cost effective option. Generally speaking, a number of studies have been conducted that have identified the benefits of hybrid pumped hydro and battery storage for renewable energy based power systems, e.g., most recently [26]. In the Jordanian context, a number of studies have analysed in detail the renewable energy potential, such as a study by the Tafila Technical University [27] revising the renewable situation in Jordan in 2005.…”

Section: Pumped Hydro Storagementioning

confidence: 99%

Analysis of Cost-Optimal Renewable Energy Expansion for the Near-Term Jordanian Electricity System

2020

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Jordan is affected by an ever changing environment in the midst of climate change, political challenges, a fast growing economy and socio-economic pressures. Among other countries in the Middle East and Northern Africa, Jordan is facing a number of electricity related challenges, such as a rising energy demand, high dependency on fossil fuel imports and management of local, fossil and renewable resources. The paper presents an analysis based on an open source optimisation modelling approach identifying a cost-optimal extension of the Jordanian electricity system with growing demand projections until 2030 utilising pumped hydro energy storage and determining the costs of different CO2 mitigation pathways. The results highlight the large potential of renewable energy for the cost effective, environmentally friendly and energy independent development of the Jordanian electricity sector. A share of up to 50% renewable energy can be achieved with only a minor increase in levelised cost of electricity from 54.42 to 57.04 $/MWh. In particular, a combination of photovoltaic and pumped hydro storage proved to be a superior solution compared to the expansion of existing shale oil deployments due to high costs and CO2 emissions. Aiming for a more than 50% renewable energy share within the electricity mix calls for substantial wind energy deployments. In a system with a renewable energy share of 90%, wind energy covers 45% of the demand.

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Hybrid pumped hydro and battery storage for renewable energy based power supply system

Cited by 189 publications

References 38 publications

Using hydropower waterway locks for energy storage and renewable energies integration

Using hydropower waterway locks for energy storage and renewable energies integration

Optimal sizing of off‐grid hydrokinetic‐based hybrid renewable power systems for a house load demand

Analysis of Cost-Optimal Renewable Energy Expansion for the Near-Term Jordanian Electricity System

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