A techno-economic assessment of large scale wind-hydrogen production with energy storage in Western Canada

Olateju, Babatunde; Kumar, Amit; Secanell, Marc

doi:10.1016/j.ijhydene.2016.03.177

Cited by 122 publications

(23 citation statements)

References 54 publications

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“…This could be because wind power is currently the cheapest renewable energy source. Among the papers in this cluster, the most recent research reports that the cost of hydrogen produced by wind power is $3.37∼$9.00 /kg H 2 , considering the costs of the water electrolyzer and the rechargeable battery that supports it [129]. Even though the cost of water electrolysis and the rechargeable battery is more ideal, the cost of a wind power plant does not change and becomes dominant; a maximum of 63% of the total cost is from the wind power plant.…”

Section: Perspective and Emerging Technologies Of Cluster V "Mec"mentioning

confidence: 99%

Analysis of Trends and Emerging Technologies in Water Electrolysis Research Based on a Computational Method: A Comparison with Fuel Cell Research

2018

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Abstract:Water electrolysis for hydrogen production has received increasing attention, especially for accumulating renewable energy. Here, we comprehensively reviewed all water electrolysis research areas through computational analysis, using a citation network to objectively detect emerging technologies and provide interdisciplinary data for forecasting trends. The results show that all research areas increase their publication counts per year, and the following two areas are particularly increasing in terms of number of publications: "microbial electrolysis" and "catalysts in an alkaline water electrolyzer (AWE) and in a polymer electrolyte membrane water electrolyzer (PEME).". Other research areas, such as AWE and PEME systems, solid oxide electrolysis, and the whole renewable energy system, have recently received several review papers, although papers that focus on specific technologies and are cited frequently have not been published within the citation network. This indicates that these areas receive attention, but there are no novel technologies that are the center of the citation network. Emerging technologies detected within these research areas are presented in this review. Furthermore, a comparison with fuel cell research is conducted because water electrolysis is the reverse reaction to fuel cells, and similar technologies are employed in both areas. Technologies that are not transferred between fuel cells and water electrolysis are introduced, and future water electrolysis trends are discussed.

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Section: Perspective and Emerging Technologies Of Cluster V "Mec"mentioning

confidence: 99%

Analysis of Trends and Emerging Technologies in Water Electrolysis Research Based on a Computational Method: A Comparison with Fuel Cell Research

2018

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“…Hydrogen production via steam methane reforming (SMR) dominates the supply to refining complexes worldwide, resulting in significant greenhouse gas (GHG) emissions …”

Section: Countermeasuresmentioning

confidence: 99%

“…Hydrogen production via steam methane reforming (SMR) dominates the supply to refining complexes worldwide, resulting in significant greenhouse gas (GHG) emissions. 42 Using large-scale wind power for electrolysis of water to produce hydrogen, can not only reduce the consumption of fossil energy and pollutant emission, but also coordinate wind power with coal chemical industry and petrochemical.…”

Section: Hydrogen Production From Wind Energymentioning

confidence: 99%

A review on China's wind power accommodation in the background of “Internet+” strategy

2017

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Summary The consumption of fossil fuel has resulted in global warming, environmental pollution, and many other crucial problems. Replacing fossil fuel with renewable energy has become an important issue over the recent decades. As a renewable clean energy, wind power is a relatively well‐developed and promising energy method for current technology development in China. Under the background of growing demand for electricity and enhancing awareness for environmental, the “Internet+ wind power” concept has emerged based on both the wind power's characteristics that renewable and non‐polluting, and the rapid development of the Internet in China. Through querying an amount of literature and information, this paper reveals the resource endowment and policy environment about wind power and energy Internet at first. Then, the PEST‐SWOT strategy analysis model is used to analyze the internalities (strengths and weaknesses) and the externalities (opportunities and threats) of “Internet+ wind power”. According to these results, the paper puts forward some measures (development and utilization, business mode) for wind power accommodation. Then some policy recommendations have been proposed. The government should provide favorable conditions for wind power grid with the “Internet+” technology innovation.

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“…Sathre et al [5] held that under base-case modeling conditions, second-life battery use in California has the potential to reduce greenhouse gas emissions by about 7 Mt CO 2 per year in 2050. Comparing the production cost of a plant (without energy storage) outlined in a previous model with updated model, Olateju et al [6] found that the added energy storage unit has reduced the hydrogen production cost from $9.21/kg H 2 to $9.00/kg H 2 . Although there are various energy storage systems in electric power systems, Amrouche et al [7] found that flywheels, batteries and super capacitors can be applied for power quality and short duration needs, but in other applications, it is possible to use batteries, flow batteries, fuel cells or Metal-Air cells.…”

Section: Introductionmentioning

confidence: 99%

A Techno-economic Analysis on Spinning Reserve Services of Battery Energy Storage Systems for Thermal

Liao¹,

Zhou²,

Zhang³

et al. 2018

JOCET

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 Abstract-Some new battery energy storage techniques are suitable for spinning reserve services for thermal power plants due to their quick response to millisecond time scale adequate to balance instantaneous load fluctuation. Technical and economic performances of three kinds of batteries including lithium ion battery, sodium-sulfur battery and vanadium redox flow battery (VRFB) are discussed as illustrations of standby supply of thermal power plants. As the spinning reserve power sources, they can achieve remarkable economic benefits in the life cycle despite their high power costs and energy costs. The reserve capacity of battery energy storage systems can improve generation rates of thermal power plants, decline gross coal consumption rates, decrease generating cost and the emission of carbon dioxide and pollutants, thus playing a significant role in energy conservation and emission reduction. His current research focuses on the inter relationship between battery energy storage techniques and smart grid. He has taken over several projects financed by government grants for battery energy storage technologies and achieved significant achievements.Prof. Liao has owned a couple of Shanghai science and technology progress awards.Peng Zhou was born in Hubei, China on Sept. 15, 1993. He is now a postgraduate student majoring in environmental chemical engineering with Shanghai University of Electric Power in Shanghai, China. His current research focuses on electric energy storage applications and technologies.

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A techno-economic assessment of large scale wind-hydrogen production with energy storage in Western Canada

Cited by 122 publications

References 54 publications

Analysis of Trends and Emerging Technologies in Water Electrolysis Research Based on a Computational Method: A Comparison with Fuel Cell Research

Analysis of Trends and Emerging Technologies in Water Electrolysis Research Based on a Computational Method: A Comparison with Fuel Cell Research

A review on China's wind power accommodation in the background of “Internet+” strategy

A Techno-economic Analysis on Spinning Reserve Services of Battery Energy Storage Systems for Thermal

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