One-and-a-half order closure: Difference between revisions

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|Meaning=A [[higher-order closure]] for [[turbulence]] where forecast equations are  retained for mean variables (e.g., first-order  
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|Explanation=''or'' first [[moment]] mean values of [[potential temperature]]  and [[wind]] components), and for [[variance]] of selected variables (e.g., selected second [[statistical]]  moments such as [[turbulence kinetic energy]] or potential temperature variance).<br/> It is not [[second-order closure]] because forecast equations are not retained for covariances,  which are also second moments statistically. Any other higher-order [[statistics]] remaining in the  equations are approximated by the mean and variance values. One type of one-and-a-half-order  closure is ''k''-&#x003b5; closure. <br/>''Compare'' [[first-order closure]], [[K-theory]], [[second-order closure]], [[nonlocal closure|nonlocal  closure]], [[Reynolds averaging]], [[closure assumptions]].
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== one-and-a-half order closure ==
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<div class="definition"><div class="short_definition">A [[higher-order closure]] for [[turbulence]] where forecast equations are  retained for mean variables (e.g., first-order <br/>''or'' first [[moment]] mean values of [[potential temperature]]  and [[wind]] components), and for [[variance]] of selected variables (e.g., selected second [[statistical]]  moments such as [[turbulence kinetic energy]] or potential temperature variance).</div><br/> <div class="paragraph">It is not [[second-order closure]] because forecast equations are not retained for covariances,  which are also second moments statistically. Any other higher-order [[statistics]] remaining in the  equations are approximated by the mean and variance values. One type of one-and-a-half-order  closure is ''k''-&#x003b5; closure. <br/>''Compare'' [[first-order closure]], [[K-theory]], [[second-order closure]], [[nonlocal closure|nonlocal  closure]], [[Reynolds averaging]], [[closure assumptions]].</div><br/> </div>
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Latest revision as of 03:25, 27 March 2024

A higher-order closure for turbulence where forecast equations are retained for mean variables (e.g., first-order

or first moment mean values of potential temperature and wind components), and for variance of selected variables (e.g., selected second statistical moments such as turbulence kinetic energy or potential temperature variance).
It is not second-order closure because forecast equations are not retained for covariances, which are also second moments statistically. Any other higher-order statistics remaining in the equations are approximated by the mean and variance values. One type of one-and-a-half-order closure is k-ε closure.
Compare first-order closure, K-theory, second-order closure, nonlocal closure, Reynolds averaging, closure assumptions.

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