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Title: Efficacy of the Cell Perturbation Method in Large-Eddy Simulations of Boundary Layer Flow over Complex Terrain

Journal Article · · Atmosphere (Basel)
ORCiD logo [1];  [2];  [1];  [3]; ORCiD logo [4];  [1]
  1. Univ. of California, Berkeley, CA (United States)
  2. Univ. of California, Berkeley, CA (United States); Univ. of Twente, Enschede (Netherlands)
  3. Univ. of Twente, Enschede (Netherlands)
  4. Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
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A challenge to simulating turbulent flow in multiscale atmospheric applications is the efficient generation of resolved turbulence motions over an area of interest. One approach is to apply small perturbations to flow variables near the inflow planes of turbulence-resolving simulation domains nested within larger mesoscale domains. While this approach has been examined in numerous idealized and simple terrain cases, its efficacy in complex terrain environments has not yet been fully explored. Here, we examine the benefits of the stochastic cell perturbation method (CPM) over real complex terrain using data from the 2017 Perdigão field campaign, conducted in an approximately 2-km wide valley situated between two nearly parallel ridges. Following a typical configuration for multiscale simulation using nested domains within the Weather Research and Forecasting (WRF) model to downscale from the mesoscale to a large-eddy simulation (LES), we apply the CPM on a domain with horizontal grid spacing of 150 m. At this resolution, spurious coherent structures are often observed under unstable atmospheric conditions with moderate mean wind speeds. Results from such an intermediate resolution grid are often nested down for finer, more detailed LES, where these spurious structures adversely affect the development of turbulence on the subsequent finer grid nest. We therefore examine the impacts of the CPM on the representation of turbulence within the nested LES domain under moderate mean flow conditions in three different stability regimes: weakly convective, strongly convective, and weakly stable. In addition, two different resolutions of the underlying terrain are used to explore the role of the complex topography itself in generating turbulent structures. We demonstrate that the CPM improves the representation of turbulence within the LES domain, relative to the use of high-resolution complex terrain alone. During the convective conditions, the CPM improves the rate at which smaller-scales of turbulence form, while also accelerating the attenuation of the spurious numerically generated roll structures near the inflow boundary. During stable conditions, the coarse mesh spacing of the intermediate LES domain used herein was insufficient to maintain resolved turbulence using CPM as the flow develops downstream, highlighting the need for yet higher resolution under even weakly stable conditions, and the importance of accurate representation of flow on intermediate LES grids.

Research Organization:
Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA); National Science Foundation (NSF)
Grant/Contract Number:
AC52-07NA27344; AGS-1565483
OSTI ID:
1866158
Report Number(s):
LLNL-JRNL-818072; 1028491
Journal Information:
Atmosphere (Basel), Vol. 12, Issue 1; ISSN 2073-4433
Publisher:
MDPICopyright Statement
Country of Publication:
United States
Language:
English

References (34)

Mixing efficiency in turbulent shear layers journal January 2001
Mesoscale to Microscale Simulations over Complex Terrain with the Immersed Boundary Method in the Weather Research and Forecasting Model journal January 2020
Wind Flow Over Complex Terrain: A Historical Perspective and the Prospect for Large-Eddy Modelling journal August 2000
A stochastic perturbation method to generate inflow turbulence in large-eddy simulation models: Application to neutrally stratified atmospheric boundary layers journal March 2015
The Shuttle Radar Topography Mission journal January 2007
Long-term simulation of the boundary layer flow over the double-ridge site during the Perdigão 2017 field campaign journal January 2019
Toward Numerical Modeling in the “Terra Incognita” journal July 2004
Generation of Turbulent Inflow Data for Spatially-Developing Boundary Layer Simulations journal March 1998
Bridging the Transition from Mesoscale to Microscale Turbulence in Numerical Weather Prediction Models journal August 2014
Resolved Turbulence Characteristics in Large-Eddy Simulations Nested within Mesoscale Simulations Using the Weather Research and Forecasting Model journal February 2014
A Tutorial on Lateral Boundary Conditions as a Basic and Potentially Serious Limitation to Regional Numerical Weather Prediction journal November 1997
Characteristics of roll and cellular convection in a deep and wide semiarid valley: A large-eddy simulation study journal July 2019
Stratocumulus-capped mixed layers derived from a three-dimensional model journal June 1980
A priori and a posteriori tests of inflow conditions for large-eddy simulation journal December 2004
Numerical Study of Convection Observed during the Winter Monsoon Experiment Using a Mesoscale Two-Dimensional Model journal October 1989
Using NOAA AVHRR and SPOT VGT data to estimate surface parameters: application to a mesoscale meteorological model journal January 2004
Radiative transfer for inhomogeneous atmospheres: RRTM, a validated correlated-k model for the longwave journal July 1997
Computational modelling for wind energy assessment journal October 2008
Multi-Scale Simulation of Wind Farm Performance during a Frontal Passage journal February 2020
The MATERHORN: Unraveling the Intricacies of Mountain Weather journal November 2015
Transition and Equilibration of Neutral Atmospheric Boundary Layer Flow in One-Way Nested Large-Eddy Simulations Using the Weather Research and Forecasting Model journal March 2013
Investigation of model parameters for high-resolution wind energy forecasting: Case studies over simple and complex terrain journal November 2014
Thermodynamic Variability within the Convective Boundary Layer Due to Horizontal Convective Rolls journal May 1996
A Large-Eddy-Simulation Model for the Study of Planetary Boundary-Layer Turbulence journal July 1984
The Convective Boundary Layer in the Terra Incognita journal July 2014
Inlet conditions for large eddy simulation: A review journal April 2010
An Improved Mellor–Yamada Level-3 Model: Its Numerical Stability and Application to a Regional Prediction of Advection Fog journal March 2006
Numerically induced high-pass dynamics in large-eddy simulation journal December 2005
High-Resolution Large-Eddy Simulations of Flow in a Steep Alpine Valley. Part I: Methodology, Verification, and Sensitivity Experiments journal January 2006
Comparison of Measured and Numerically Simulated Turbulence Statistics in a Convective Boundary Layer Over Complex Terrain journal November 2016
Convectively Induced Secondary Circulations in Fine-Grid Mesoscale Numerical Weather Prediction Models journal September 2014
Atmospheric modeling to assess wind dependence in tracer dilution method measurements of landfill methane emissions journal March 2018
Generation of Inflow Turbulence in Large-Eddy Simulations of Nonneutral Atmospheric Boundary Layers with the Cell Perturbation Method journal June 2018
Practical Considerations for Computing Dimensional Spectra from Gridded Data journal September 2017

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17 WIND ENERGY
58 GEOSCIENCES
54 ENVIRONMENTAL SCIENCES
large-eddy simulation
complex terrain
weather research and forecasting model
turbulence generation
cell perturbation method
the Perdigão