Integrated nanomaterials for extreme thermal management: a perspective for aerospace applications

Barako, Michael T.; Gambin, Vincent; Tice, Jesse

doi:10.1088/1361-6528/aaabe1

Cited by 48 publications

(21 citation statements)

References 84 publications

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“…Nanotechnology has the potential to revolutionise our future, offering life-saving or climateprotecting applications and being part of a multitude of current technological developments from aerospace technologies to food packaging and cosmetics (Nafisi and Maibach, 2017;Barako et al, 2018;Pereda et al, 2018). Failure of nanotechnology to realise its potential is inconceivable in terms of a financial and social impact, and yet, this prospect is not unlikely.…”

Section: Introductionmentioning

confidence: 99%

Simulations of morphological transformation in silver nanoparticles as a tool for assessing their reactivity and potential toxicity

et al. 2019

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Where a licence is displayed above, please note the terms and conditions of the licence govern your use of this document.When citing, please reference the published version. Take down policyWhile the University of Birmingham exercises care and attention in making items available there are rare occasions when an item has been uploaded in error or has been deemed to be commercially or otherwise sensitive.

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Section: Introductionmentioning

confidence: 99%

Simulations of morphological transformation in silver nanoparticles as a tool for assessing their reactivity and potential toxicity

et al. 2019

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“…Shamberger and Fisher [104] indicated that PCM composite nano-architectures have a higher thermal conductivity than PCMs alone. The greater conductivity of 2–5% ofAl 2 O 3 helps achieve a larger thermal accessible volume, which minimizes the overheating of the devices [106]. The addition of the nanocomposite in PCMs is a handy technique to equally distribute the heat and enhance the aircraft safe operation during lightning strikes.…”

Section: Nanotechnology Applications In Transportation Vehiclesmentioning

confidence: 99%

Nanotechnology in Transportation Vehicles: An Overview of Its Applications, Environmental, Health and Safety Concerns

Shafique

Luo

2019

Materials

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Nanotechnology has received increasing attention and is being applied in the transportation vehicle field. With their unique physical and chemical characteristics, nanomaterials can significantly enhance the safety and durability of transportation vehicles. This paper reviews the state-of-the-art of nanotechnology and how this technology can be applied in improving the comfort, safety, and speed of transportation vehicles. Moreover, this paper systematically examines the recent developments and applications of nanotechnology in the transportation vehicle industry, including nano-coatings, nano filters, carbon black for tires, nanoparticles for engine performance enchantment and fuel consumption reduction. Also, it introduces the main challenges for broader applications, such as environmental, health and safety concerns. Since several nanomaterials have shown tremendous performance and have been theoretically researched, they can be potential candidates for applications in future environmental friendly transportation vehicles. This paper will contribute to further sustainable research and greater potential applications of environmentally friendly nanomaterials in healthier transportation vehicles to improve the transportation industry around the globe.

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“…Boiling enhancements through modified surfaces promise performance breakthroughs for applications ranging from power generation to desalination and thermal management for high-power electronics and nuclear reactors. − The latent heat of nucleate pool boiling promises up to 2 orders of magnitude higher in heat flux dissipation in comparison to single-phase liquid cooling . Extensive studies have explored various strategies to enhance boiling performances by investigating different types of surfaces or architectures.…”

Section: Introductionmentioning

confidence: 99%

Boiling Heat Transfer with a Well-Ordered Microporous Architecture

Pham

Zhang

Hao

et al. 2020

ACS Appl. Mater. Interfaces

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Boiling heat transfer through a porous medium offers an attractive combination of enormous liquid–vapor interfacial area and high bubble nucleation site density. In this work, we characterize the boiling performances of porous media by employing the well-ordered and highly interconnected architecture of inverse opals (IOs). The boiling characterization identifies hydrodynamic mechanisms through which structural characteristics affect the boiling performance of metallic microporous architecture by validating empirical measurements. The boiling performances can be optimized through the rational design of both the structural thicknesses and pore diameters of IOs, which demonstrate up to 336% enhancement in boiling heat-transfer coefficient (HTC) over smooth surfaces. The optimal HTC and critical heat flux occur at approximately 3–4 μm in porous structure thickness, which is manifested through the balance of liquid–vapor occupation within the spatial confinement of the IO structure. The optimization of boiling performances with varying pore diameters (0.3–1.0 μm) can be attributed to the hydraulic competitions between permeability and viscous resistance to liquid–vapor transport. This study unveils thermophysical understandings to enhance multiphase heat transfer in microporous media for ultrahigh heat flux thermal management.

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Integrated nanomaterials for extreme thermal management: a perspective for aerospace applications

Cited by 48 publications

References 84 publications

Simulations of morphological transformation in silver nanoparticles as a tool for assessing their reactivity and potential toxicity

Simulations of morphological transformation in silver nanoparticles as a tool for assessing their reactivity and potential toxicity

Nanotechnology in Transportation Vehicles: An Overview of Its Applications, Environmental, Health and Safety Concerns

Boiling Heat Transfer with a Well-Ordered Microporous Architecture

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