Application of a new evaluation guideline for microscale flow models J. Eichhorn Institute for Atmospheric Physics University of Mainz, Germany.

Slides:

Advertisements

Similar presentations

Assimilation of radar data - research plan

Advertisements

Bridging the Gap Between Statistics and Engineering Statistical calibration of CFD simulations in Urban street canyons with Experimental data Liora Malki-Epshtein.

A numerical simulation of urban and regional meteorology and assessment of its impact on pollution transport A. Starchenko Tomsk State University.

OpenFOAM for Air Quality Ernst Meijer and Ivo Kalkman First Dutch OpenFOAM Seminar Delft, 4 november 2010.

Coupled NMM-CALMET Meteorology Development for the CALPUFF Air Dispersion Modelling in Complex Terrain and Shoreline Settings Presented at: European Geoscience.

3.11 Adaptive Data Assimilation to Include Spatially Variable Observation Error Statistics Rod Frehlich University of Colorado, Boulder and RAL/NCAR Funded.

Estimation of the Accuracy Obtained from CFD for industrial applications Prepared by Imama Zaidi.

Page 1© Crown copyright 2007 High-resolution modelling in support of T-REX observations Simon Vosper and Peter Sheridan Met Office, UK T-REX Workshop,

CEREA – Group « Meteorological Measurements » 15 September METEOROLOGICAL MEASUREMENTS IN THE ATMOSPHERIC BOUNDARY LAYER E. Dupont – D. Demengel.

International Research Centre for Telecommunications and Radar High resolution atmospheric profiling with the S-band Doppler polarimetric radar TARA Christine.

ASSIMILATION of RADAR DATA at CONVECTIVE SCALES with the EnKF: PERFECT-MODEL EXPERIMENTS USING WRF / DART Altuğ Aksoy National Center for Atmospheric Research.

NATO ADVANCED STUDY INSTITUTE, Kyiv, May 2004 Detailed numerical modeling of local atmospheric dispersion in an idealized urban area M. Milliez, S. Panzarella,

LiDAR analysis at a site with simple terrain Alex Clerc, Lee Cameron Tuesday 2 nd September

The effect of ship shape and anemometer location on wind speed measurements obtained from ships B I Moat 1, M J Yelland 1, A F Molland 2 and R W Pascal.

Climate Change Committee WG1 QA/QC procedures and – programme for the EC inventory process André Jol, EEA 2 September 2004.

8 th Conference on Air Quality Modeling – A&WMA AB3 Comments on Nonstandard Modeling Approaches By Ron Petersen, CPP Inc Blue Spruce Drive Fort Collins.

Atmospheric Flow over Terrain using Hybrid RANS/LES European Wind Energy Conference & Exhibition 2007 A. Bechmann, N.N. Sørensen and J. Johansen Wind Energy.

01/14/2001Standards1 Introduction to Standards Paul M. Fransioli, CCM AMS Short Course on Introduction to Measurements and Observation Techniques January.

Wind Modeling Studies by Dr. Xu at Tennessee State University

A Radar Data Assimilation Experiment for COPS IOP 10 with the WRF 3DVAR System in a Rapid Update Cycle Configuration. Thomas Schwitalla Institute of Physics.

How to use CFD (RANS or LES) models for urban parameterizations – and the problem of averages Alberto Martilli CIEMAT Madrid, Spain Martilli, Exeter, 3-4.

Yamada Science & Art Corporation PROPRIETARY A Numerical Simulation of Building and Topographic Influence on Air Flows Ted Yamada （ YSA.

ICHS4, San Francisco, September E. Papanikolaou, D. Baraldi Joint Research Centre - Institute for Energy and Transport

A control algorithm for attaining stationary statistics in LES of thermally stratified wind-turbine array boundary layers Adrian Sescu * and Charles Meneveau.

Development and application of guidance documents – industry view Dr Martin Schaefer ECCA-ECPA Conference March 2014.

The Importance of Atmospheric Variability for Data Requirements, Data Assimilation, Forecast Errors, OSSEs and Verification Rod Frehlich and Robert Sharman.

Outlook Results (Model Modification) Results (Model Parameters and Performance) Application and Improvement of Raupach’s Shear Stress Partitioning Model.

Hiromasa Nakayama*, Klara Jurcakova** and Haruyasu Nagai*

ATD Research Needs and Priorities Panelists Dr. Jay Boris – Navy/NRL Mr. Walter Schalk – NOAA/ARL Mr. John Pace – DoD/DTRA Ms. Jocelyn Mitchell - NuRC.

Miskam basics MISKAM – Mikroskaliges Strömung-und Ausbreitungsmodell (Microscale flow and dispersion model) Developer: Dr. J. Eichhorn, Universität Mainz.

Simulations of Compressible MHD Turbulence in Molecular Clouds Lucy Liuxuan Zhang, CITA / University of Toronto, Chris Matzner,

MISKAM simulation of the Oklahoma City case Márton Balczó COST 732 MC /WG meeting Madrid, December 4, 2008 Budapest University of Technology and Economics.

Verification and Case Studies for Urban Effects in HIRLAM Numerical Weather Forecasting A. Baklanov, A. Mahura, C. Petersen, N.W. Nielsen, B. Amstrup Danish.

Comparison of convective boundary layer velocity spectra calculated from large eddy simulation and WRF model data Jeremy A. Gibbs and Evgeni Fedorovich.

Power Curve Working Group Update Roskilde 26 th June 2015.

Building Aware Flow and T&D Modeling Sensor Data Fusion NCAR/RAL March

On using process-based statistical models of air pollutants to meet regulatory and research needs Amy Nail, Ph.D. Honestat, LLC Statistics & Analytics.

The new DWD polarimetric weather radar network: a new radar data processing framework and new products Michael Frech 1, Nils Rathmann 2, Jörg Steinert.

Georgia Institute of Technology Initial Application of the Adaptive Grid Air Quality Model Dr. M. Talat Odman, Maudood N. Khan Georgia Institute of Technology.

Session 3, Unit 5 Dispersion Modeling. The Box Model Description and assumption Box model For line source with line strength of Q L Example.

CITES 2005, Novosibirsk Modeling and Simulation of Global Structure of Urban Boundary Layer Kurbatskiy A. F. Institute of Theoretical and Applied Mechanics.

Using Observations and Theory to Evaluate Model Convergence at Fronts Ben Harvey Thanks to: Chloe Eagle, Humphrey Lean (Met Reading) John Methven.

TEMPLATE DESIGN © A high-order accurate and monotonic advection scheme is used as a local interpolator to redistribute.

1 Tracer Experiments Barrio Logan Working Draft Do Not Cite or Quote Tony Servin, P.E. Shuming Du, Ph.D. Vlad Isakov, Ph.D. September 12, 2002 Air Resources.

ATmospheric, Meteorological, and Environmental Technologies RAMS Parallel Processing Techniques.

Cluster Consistency Monitor. Why use a cluster consistency monitoring tool? A Cluster is by definition a setup of configurations to maintain the operation.

Lagrangian particle models are three-dimensional models for the simulation of airborne pollutant dispersion, able to account for flow and turbulence space-time.

Types of Models Marti Blad Northern Arizona University College of Engineering & Technology.

IMPACT 3-5th November 20044th IMPACT Project Workshop Zaragoza 1 Investigation of extreme flood Processes and uncertainty IMPACT Investigation of Extreme.

4th International Conference on Hydrogen Safety, San Francisco, USA, September, J. Yanez, A. Kotchourko, M. Kuznetsov, A. Lelyakin, T. Jordan.

On some characteristics of the spatial distribution of turbulence components over the Bolund hill determined in wind tunnel compared to full-scale measurements.

Page 1 AD hoc Workshop, TC working Group, 12. June 2007, Taipei Progress Report from the GKSS group Hans von Storch and Frauke Feser Institute for Coastal.

CFD predictions of transition and distributed roughness over a wind turbine airfoil ESTEBAN FERRER XABIER MUNDUATE 47th AIAA Aerospace Sciences Meeting.

AMS Conference January 2010 Atlanta, GA NCAR/RAL - National Security Applications Program Evaluation of Large Eddy Numerical Simulations (LES) with.

Physical Modeling of the Atmospheric Boundary Layer in the UNH Flow Physics Facility Stephanie Gilooly and Gregory Taylor-Power Advisors: Dr. Joseph Klewicki,

Summary of the Report, “Federal Research and Development Needs and Priorities for Atmospheric Transport and Diffusion Modeling” 22 September 2004 Walter.

SAL - Structure, Ampliutde, Location

ICHS 2015 – Yokohama, Japan | ID195

A V&V Overview of the 31st Symposium on Naval Hydrodynamics

Reporter: Prudence Chien

Evaluation of the Cuban Wind Atlas

Multiscale aspects of cloud-resolving simulations over complex terrain

European Wind Energy Conference and Exhibition 2009, Marseille, France

THE METHOD OF LINES ANALYSIS OF ASYMMETRIC OPTICAL WAVEGUIDES Ary Syahriar.

Rotors in Complex Inflow, AVATAR, WP2

MODEL WIND FIELD COMPARE WITH HRD WIND FIELD

General MS procedure UNECE WP6 panel session Draft 2

Dorota Jarecka1 Wojciech W. Grabowski2 Hanna Pawlowska1

E. Papanikolaou, D. Baraldi

EUROSTAT between demand and supply

Presentation transcript:

Application of a new evaluation guideline for microscale flow models J. Eichhorn Institute for Atmospheric Physics University of Mainz, Germany

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Overview  The guideline  The model MISCAM  Results of consistency checks  Results of comparisons to wind tunnel data  Discussion

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, The Guideline  VDI 3783/9 „Environmental Meteorology – Prognostic microscale windfield models – Evaluation for flow around buildings and obstacles“  Topics addressed: –Scalability, stationarity, homogeneity, independance on grid resolution –Accuracy in comparison to measurements

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Evaluation method  In each case, agreement between model results (P i ) and some reference data (O i ) must be quantified  Definition of hit rate q in terms of D: normalized deviation W:total deviation n:Number of data points evaluated

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, The Model MISCAM  Three-dimensional non-hydrostatic flow model.  k-  turbulence closure, modifications by Kato & Launder (1993) and Lopez (2002) applied.  Simple numerical schemes, model runs on standard PC.  > 50 users in Europe.

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Results of Consistency Checks  Scalability –Flow over two-dimensional beam –Simulations for two inflow velocities, 10 m/s (O i ) and 1 m/s (P i ), normalisation of results  Criteria for successful evaluation: W = 0.01; D = 0.05; q u,w ≥ 0.95  Results for MISCAM: q u = 0.99; q w = 1.00

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Results of Consistency Checks  Stationarity –Same configuration –Simulation of stationary wind field (O i ) and with number of timesteps doubled (P i )  Criteria as above  Results as above

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Results of Consistency Checks  Grid resolution  Flow around a cube  Grid spacing 2.5 m (O i ) and 1.25 m (P i )  Criteria: W = 0.05; D = 0.05; q u,v,w ≥ 0.95  Results: q u = 0.99; q v ≈ 1.00; q w = 0.99

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Case C3: Flow around a cube  Criteria: W = 0.06; D = 0.25; q u,v,w ≥ 0.66  Result: q u = 0.93; q v = 0.97; q w = 0.93

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Case C5: Flow around a rectangular block  Criteria: W = 0.07; D = 0.25; q u,v,w ≥ 0.66  Result: q u = 0.78; q v = 0.88; q w = 0.86 OBS SIM

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Case C6: Array of rectangular obstacles

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Wind component u (m/s) at z = 12 m

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Case C6: Flow around an array of obstacles  Criteria: W = 0.10; D = 0.25; q u,v,w ≥ 0.66  Result: q u = 0.93; q v = 0.66; q w = 0.81

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  An explanation? OBSSIM

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Discussion  MISCAM fulfils the criteria of VDI 3783/9.  Consistency checks are most useful for model developers.  Fulfilment of evaluation criteria does not imply perfect agreement with wind tunnel data.  Failure to fulfil the criteria, however, is a hint to model errors.

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Discussion  Critical evaluation of data sets is mandatory.  Data sets for more complex situations are necessary.  An analogous guideline for microscale dispersal models seems worthwile.

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Acknowledgements I would like to thank the members of the VDI working group for many valuable discussions … and everyone here for listening!

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Wind component v (m/s) at z = 12 m

J. Eichhorn - Application of a new evaluation guideline for microscale flow models 9th International Conference on Harmonisation within Atmospheric Dispersion Modeling for Regulatory Purposes Garmisch-Partenkirchen, June 1-4, Comparison to wind tunnel data  Wind component w (m/s) at z = 12 m