Evaluation of large-eddy simulated atmosphere-land interactions: from the perspective of heterogeneity propagation

This page lists all metadata that was entered for this dataset. Only registered users of the TR32DB may download this file.

Feature
Request downloadRequest download
Full Name:
Affiliation:
eMail:
Purpose of use:
 
Bot check:
Type all characters with this
color
.
 
It is case sensitive.
 
 
 
Submit
Citation
Citation Options
Identification
Title:Main Title: Evaluation of large-eddy simulated atmosphere-land interactions: from the perspective of heterogeneity propagation
Description:Abstract: Atmosphere-land interactions modeled by large-eddy simulation are evaluated from the perspective of heterogeneity propagation by comparison with airborne measurements. It is found that the footprints of surface heterogeneity, though as 2-dimensional patterns can be dissipated quickly due to turbulent mixing, as 1-dimensional projections can persist and propagate to the top of the atmospheric boundary layer. Direct comparison and length scale analysis show that the simulated heterogeneity patterns are comparable to the observation. The results highlight the model’s capability in simulating the complex impact of surface heterogeneity on atmosphere-land interactions.
Responsible Party
Creators:Shaofeng Liu (Author), Michael Hintz (Author)
Publisher:Wiley Online Library
Publication Year:2014
Topic
TR32 Topic:Atmosphere
Related Subproject:D6
Subjects:Keywords: Atmosphere–Land Interaction, LES, Heterogeneous
File Details
Filename:ASL-14-108.pdf
Data Type:Text - Article
Size:12 Pages
File Size:1.4 MB
Date:Accepted: 12.09.2014
Mime Type:application/pdf
Data Format:PDF
Language:English
Status:Completed
Constraints
Download Permission:Only Project Members
General Access and Use Conditions:For internal use only
Access Limitations:For internal use only
Licence:[TR32DB] Data policy agreement
Geographic
Specific Information - Publication
Publication Status:Peer-Reviewed
Review Status:Peer reviewed
Publication Type:Article
Article Type:Journal
Source:Atmospheric Science Letters
Number of Pages:12 (1 - 12)
Metadata Details
Metadata Creator:Shaofeng Liu
Metadata Created:12.09.2014
Metadata Last Updated:12.09.2014
Subproject:D6
Funding Phase:2
Metadata Language:English
Metadata Version:V50
Metadata Export
Metadata Schema:
Dataset Statistics
Page Visits:618
Metadata Downloads:0
Dataset Downloads:2
Dataset Activity
Feature
A download is not possibleDownload