2021
DOI: 10.2172/1873405
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Challenge Problem 1: Benchmark Specifications for the Direct Numerical Simulation of Canonical Flows

Abstract: 60439. For information about Argonne and its pioneering science and technology programs, see www.anl.gov. DOCUMENT AVAILABILITYOnline Access: U.S. Department of Energy (DOE) reports produced after 1991 and a growing number of pre-1991 documents are available free at OSTI.GOV (http://www.osti.gov/), a service of the US Dept. of Energy's Office of Scientific and Technical Information.

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Cited by 7 publications
(10 citation statements)
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“…These include acceleration at the cold wall and heat transfer suppression at certain buoyancy conditions driven by laminarization. Future work will include simulations at higher Reynolds number [17] to study the high Peclet regime where turbulent heat transfer is more significant in both the low and high Prandtl fluids.…”
Section: Conclusion Regarding Engineering Turbulence Model Assessmentmentioning
confidence: 99%
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“…These include acceleration at the cold wall and heat transfer suppression at certain buoyancy conditions driven by laminarization. Future work will include simulations at higher Reynolds number [17] to study the high Peclet regime where turbulent heat transfer is more significant in both the low and high Prandtl fluids.…”
Section: Conclusion Regarding Engineering Turbulence Model Assessmentmentioning
confidence: 99%
“…where 𝒖 * = 𝒖/𝑒 π‘Ÿπ‘’π‘“ , 𝑝 * = 𝑝/πœŒπ‘’ π‘Ÿπ‘’π‘“ 2 , 𝑇 * = (𝑇 βˆ’ 𝑇 π‘Ÿπ‘’π‘“ )/Δ𝑇 π‘Ÿπ‘’π‘“ , and 𝑑 * = 𝑑𝑒 π‘Ÿπ‘’π‘“ /𝐿 π‘Ÿπ‘’π‘“ are nondimensional velocity, pressure, temperature, and time; 𝝉 is RS tensor, 𝒖 * β€² 𝑇 * β€² is THF vector; Re, Ri π‘ž , and Pr are Reynolds, modified Richardson, and Prandtl numbers; 𝒆 𝑧 is unit vector in the direction of vertical 𝑧 axis. The reference scales are briefly discussed in Sub-section 4.2; see also more details in [17,23,24].…”
Section: Problem Formulationmentioning
confidence: 99%
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