• Home

  • Documents

  • Simulations with the MesoNH model from 27 August 2005 to 29 August 2005 (6UTC)

If you can't read please download the document

Simulations with the MesoNH model from 27 August 2005 to 29 August 2005 (6UTC)

  • Upload
    sai

  • View
    22

  • Download
    0

Tags:

Embed Size (px)

DESCRIPTION

Simulations with the MesoNH model from 27 August 2005 to 29 August 2005 (6UTC) performed by Meteo-France CNRM Nicole Asencio. See powerpoint comments associated to each slide. Aug 27 12UTC. Aug 29 00UTC. Rain Observations Area. Aug 28 12UTC. Aug 29 06UTC. Aug 28 18UTC. c. - PowerPoint PPT Presentation

Citation preview

  • Simulations with the MesoNH model

    from 27 August 2005 to 29 August 2005 (6UTC)

    performed by Meteo-France CNRM Nicole AsencioSee powerpoint comments associated to each slide.

  • Rain Observations AreacAug 28 12UTCAug 28 18UTCAug 29 00UTCAug 29 06UTCMcs Tracking derived from Meteosat IRAug 27 12UTC

    See: http://www.cnrm.meteo.fr/amma-moana/dryrun2005/ Date Observation/satellite

  • mNumerical set-up10km modelNon-hydrostatic Mesonh modelmicrophysic with iceconvective scheme KAFRSimulations27 August28 August29 AugustStart and coupling= ArpegeAno27Start and coupling= ArpegeAno28Start and coupling= Arpege TropiquesStart and coupling= ECMWFTno28Eno28Orography6utc0utc0utc

  • 24-hour rain validation 6h-6h 27 AugustArpege start=27/08

  • 24-hour rain validation 6h-6h 28 AugustArpege Tropiques start=28/08Arpege start=28/08Arpege start=27/08ECMWF start=28/08

  • hourly rain validation: Niger sites28/0818:0029/0808:00Arpege Tropiques start=28/08Arpege start=28/08ECMWF start=28/08Arpege start=27/08

  • hourly rain validation: Benin sites28/0818:0028/0818:00Arpege Tropiques start=28/08Arpege start=28/08ECMWF start=28/08Arpege start=27/08

  • IWV time evolution ( compared to O. Bock plots)27/0800:0030/0800:00Arpege start=27/08Arpege start=28/08Arpege Tropiques start=28/08ECMWF start=28/08

  • 2-meter Temperature time evolution ( compared to O. Bock plots)27/0800:0030/0800:00Arpege start=27/08Arpege start=28/08Arpege Tropiques start=28/08ECMWF start=28/08

  • Pressure (first model level) time evolution ( compared to O. Bock plots)27/0800:0030/0800:00Arpege start=27/08Arpege start=28/08Arpege Tropiques start=28/08ECMWF start=28/08

  • For these coarse resolution mesoscale runs using a convective parameterization, surface rainfall is a misleading parameter for the evaluation of the simulations scenarii. The model could represent MCS systems but with no associated rain at the ground.On an other side, rain could be generated by the convection parametrization and no MCS are present in the simulation (for example Sahel areas).The time evolutions at Niamey, Gao and Djougou do not allow to discriminate the simulations

    To evaluate the simulations scenarii, we choose to represent the time-evolution of The following model convective parameters (instantaneous outputs of the model every hour) vertical velocity 500m above ground level water content integrated on the column of the hydrometeors above the 0 Celsius level (i.e. for the cold Mesonh microphysic Ice + Graupel + Snow) The Brightness Temperature derived from model variables is a veryexpensive calculation and it gives a similar result compared to the hydrometeorscontent. The advantage is that it can be compared to observables, the Meteosat IR product.

  • Simulations scenario evaluation: lower levelsArpege Tropiques start=28/08Arpege start=28/08ECMWF start=28/08Arpege start=27/08The Nigerian MCS are represented

  • Simulations scenario evaluation: upper levelsECMWF start=28/08Arpege start=27/08Arpege start=28/08Arpege Tropiques start=28/08

  • Initial states: TEJ at 200hPaArpege TropiquesArpegeECMWF28 August 2005 00UTCm/s

  • Initial states: AEJ at 700hPaArpege TropiquesArpegeECMWF28 August 2005 00UTCm/s

  • Initial states: Integrated water ContentArpege TropiquesArpegeECMWF28 August 2005 00UTCmm

  • Conclusions and PerspectivesThe simulation with Arpege-Tropiques analysis gives the bestscenario (two MCS over Nigeria) but the systems propagate too slowly and do not cross over Benin at 06UTC on 29th August. We will perform a new simulation with the Mesonhtwo_way nesting method: - a 4km or 5km horizontal model nested within the 10km model - this high resolution model explicitly resolves the convection so we expect to better represent the propagation of the two systems over Nigeria. The ECMWF Mesonh simulation and the BOLAM simulations starting one day before give a similar scenario : a system over Niger rather than over Nigeria.Supplementary diagnosis will be performed to evaluate the maindifferences between the analysis.

  • Comments of the slides:Slide 2: top-left:The first MCS system (green) starts on 27 August over northern Centre Afrique country. Middle-left: a second system (light green) starts on 28 August near northern part of the Jos PlateauBottom-left: the two previous systems merge together before crossing Benin country. Two other systems (blue and orange) start near Niamey.Top-right: the merged systems go on over the sea. The two new systems (blue and orange) grow. Middle right: only one system (blue) is active and crosses the Burkina Faso country.Slide3: A wide domain has been chosen in order to represent the systems propagation and life cycle when the simulations start on 27 August and on 28 August.The simulations end at 6UTC to calculate 24 hour-accumulated rain from 6UTC to 6UTC for comparisons with CPC rainfall product.Slide4: Too much precipitation over Sahel areas.If we consider only the blue to red colours : over the eastern part (Tchad, Centre Afrique ) and the western part of the domain, the accumulated rain is encouraging.Slide5: Some great differences with the representation of the systems in the simulations.24-h accumulated rainfall is consistent with the evolution of the systems, that seem to propagate too slowly in the different simulations. Too much precipitation over Sahel areas.If we consider only the blue to red colours :only the ECMWF simulation gives a good amount of precipitation over the northern Benin (blue colour) but the accumulated rain over Nigeria is not well represented. Slide6: These evolutions should be compared with the figure 3a of the water Cycle First case study. report. Only the ECMWF and Arpege 27 simulations give some rain over Niger sitesThe comparisons are not good at this small loacl scale.Slide7:These evolutions should be compared with the figure 3b of the water Cycle First case study. report.Only Arpege Tropiques simulation gives some rain at the beginning of the period.The comparisons are not good at this small local scale : temporal evolution and amount.

  • Slide 8: Simulations are relatively close to the observations at Niamey and Djougou: values and evolutionSome differences between the simulations, for Gao ECMWF simulation departs significantly from the other ones.Slide 9:Simulations are close to the observations at Niamey and Djougou: values and evolutionDifferences between the simulations could be related to different cloud covers in areas where it did not rain.Slide 10:Simulations are relatively close to the observations at Niamey and Djougou: evolution but values are different also because the ground of the modelIs higher than the station level ( a few mb I.e. a few tens of meter) Some differences between the simulations.These time evolution diagnosis do not allow to clearly discriminate the simulations.Slide 12: To evaluate the scenario of the two days, we represent the hourly evolution of the vertical velocity greater than 0.25m/s at 500 meters above ground level. Light Blue colour= hourly locations during the morning (1-11UTC) of the first day of the simulation Dark blue for the afternoon (13-24UTC) of the first daygrey colour= morning (1-11UTC) of the second day, Black and grey= afternoon (13-24UTC) of the second day. Green colour= during the third day ( only Ano27 gets this colour). Midday = red colour.A zoom of the simulation domain ( hashed zone=orography at 600m)Arpege simulation starting on 27 August (bottom-right): the system propagates from Centre Afrique to Nigeria but slows down during the 29 August day (green colour)Arpege simulation starting on 28 August (top-right): The second system over the northern part of Joss plateau is not representedArpege-Tropiques simulation starting on 28 August (top-left) : well represents two systems moving to BeninECMWF simulation starting on 28 August (bottom-left) : the scenario is not good. A system near Niamey is represented and nothing over Nigeria.

  • Slide13: To evaluate the scenario of the two days, we represent the hourly evolution of the vertical integration of all the cold hydrometeors ( ice + snow + graupel) greater than 1.5 mm. A zoom of the simulation domain ( hashed zone=orography at 600m)The diagnosis with the brightness temperature lower than 200K give a similar result.Compare this diagnosis with the previous one at the lower levels: two more systems are represented near Tchad Lake and over Soudan country whose signature does not appear on the 500m vertical velocity field.Apege and Arpege Tropiques simulations seem to represent a good scenario but the systems are too late and do not cross over Benin at 06UTC 29 August. Slide 14:A weak difference between TEJ ECMWF analysis and from Arpege ones.Slide 15:The AEJ is stronger on the eastern part of the domain for Arpege Analyses compared to ECMWF analyse.Slide 16:A great difference with less humidity in the ECMWF over northern Nigeria , southern Niger and Centre Africa country where the MCS is located at this time.The differences between the Arpege analysis are not significant. The different scenarii between Arpege Tropiques and Arpege simulations seem to be explained more by the differences in the dynamicsrather than by the differences in the humidity fields.

    top-left:The first MCS system (green) starts on 27 August over northern Centre Afrique country. Middle-left: a second system (light green) starts on 28 August near northern part of the Jos PlateauBottom-left: the two previous systems merge together before crossing Benin country. Two other systems (blue and orange) start near Niamey.Top-right: the merged systems go on over the sea. The two new systems (blue and orange) grow. Middle right: only one system (blue) is active and crosses the Burkina Faso country. A wide domain has been chosen in order to represent the systems propagation and life cycle when the simulations start on 27 August and on 28 August.The simulations end at 6UTC to calculate 24 hour-accumulated rain from 6UTC to 6UTC for comparisons with CPC rainfall product.Too much precipitation over Sahel areas.If we consider only the blue to red colours : over the eastern part (Tchad, Centre Afrique ) and the western part of the domain, the accumulated rain is encouraging.

    Some great differences with the representation of the systems in the simulations.24-h accumulated rainfall is consistent with the evolution of the systems, that seem to prpagate too slowly in the different simulations. Too much precipitation over Sahel areas.If we consider only the blue to red colours :only the ECMWF simulation gives a good amount of precipitation over the northern Benin (blue colour) but the accumulated rain over Nigeria is not well represented. These evolutions should be compared with the figure 3a of the water Cycle First case study. report. Only the ECMWF and Arpege 27 simulations give some rain over Niger sitesThe comparisons are not good at this small loacl scale.These evolutions should be compared with the figure 3b of the water Cycle First case study. report.Only Arpege Tropiques simulation gives some rain at the beginning of the period.The comparisons are not good at this small local scale : temporal evolution and amount.Simulations are relatively close to the observations at Niamey and Djougou: values and evolutionSome differences between the simulations, for Gao ECMWF simulation departs significantly from the other ones.Simulations are close to the observations at Niamey and Djougou: values and evolutionDifferences between the simulations could be related to different cloud covers in areas where it did not rain.

    Simulations are relatively close to the observations at Niamey and Djougou: evolution but values are different also because the ground of the modelIs higher than the station level ( a few mb I.e. a few tens of meter) Some differences between the simulations.These time evolution diagnosis do not allow to clearly discriminate the simulations.

    To evaluate the scenario of the two days, we represent the hourly evolution of the vertical velocity greater than 0.25m/s at500 meters above ground level. Light Blue colour= hourly locations during the morning (1-11UTC) of the first day of the simulation Dark blue for the afternoon (13-24UTC) of the first daygrey colour= morning (1-11UTC) of the second day, Black and grey= afternoon (13-24UTC) of the second day. Green colour= during the third day ( only Ano27 gets this colour). Midday = red colour.A zoom of the simulation domain ( hashed zone=orography at 600m)Arpege simulation starting on 27 August (bottom-right): the system propagates from Centre Afrique to Nigeria but slows down during the 29 August day (green colour)Arpege simulation starting on 28 August (top-right): The second system over the northern part of Joss plateau is not representedArpege-Tropiques simulation starting on 28 August (top-left) : well represents two systems moving to BeninECMWF simulation starting on 28 August (bottom-left) : the scenario is not good. A system near Niamey is represented and nothing over Nigeria.To evaluate the scenario of the two days, we represent the hourly evolution of the vertical integration of all the cold hydrometeors ( ice + snow + graupel) greater than 1.5 mm. A zoom of the simulation domain ( hashed zone=orography at 600m)The diagnosis with the brightness temperature lower than 200K give a similar result.Compare this diagnosis with the previous one at the lower levels: two more systems are represented near Tchad Lake and over Soudan country whose signature does not appear on the 500m vertical velocity field.Apege and Arpege Tropiques simulations seem to represent a good scenario but the systems are too late and do not cross over Benin at 06UTC 29 August.

    A weak difference between TEJ ECMWF analysis and from Arpege ones.The AEJ is stronger on the eastern part of the domain for Arpege Analyses compared to ECMWF analyse.A great difference with less humidity in the ECMWF over northern Nigeria , southern Niger and Centre Africa country where the MCS is located at this time.The differences between the Arpege analysis are not significant. The different scenarii between Arpege Tropiques and Arpege simulations seem to be explained more by the differences in the dynamicsrather than by the differences in the humidity fields.


Ai August 5 2005

Ai August 5 2005

Documents
2005 Interim Results Announcement Sinotrans Limited August 26, 2005 Sinotrans Limited August 26, 2005

2005 Interim Results Announcement Sinotrans Limited August 26, 2005 Sinotrans Limited August 26, 2005

Documents
August 26 th , 2005

August 26 th , 2005

Documents
Cingular August 24 2005 - December 1 2005

Cingular August 24 2005 - December 1 2005

Documents
August 2005 Magazine August 2005 Calendarartsmagazine.info/amagazine/2005/08/2005072516310693.pdf · August 2005 Magazine August 2005 11 27 ... Appalachian Festival of Plays ... his

August 2005 Magazine August 2005 Calendarartsmagazine.info/amagazine/2005/08/2005072516310693.pdf · August 2005 Magazine August 2005 11 27 ... Appalachian Festival of Plays ... his

Documents
Shua Digest August 2005

Shua Digest August 2005

Documents
Bulletin 2005 August

Bulletin 2005 August

Documents
August 25, 2005

August 25, 2005

Documents
The Waterlog August 2005

The Waterlog August 2005

Documents
31 AUGUST 2005

31 AUGUST 2005

Documents
Post-traitements des simulations MesoNH: les outils annexes ou `` tools’’

Post-traitements des simulations MesoNH: les outils annexes ou `` tools’’

Documents
15 August 2005

15 August 2005

Documents
Pipe Supports - 2005 August

Pipe Supports - 2005 August

Documents
2005 August Newsletter

2005 August Newsletter

Documents
August 2005 finalcopy - Ecumenwebnet.ecumen.org/News/2005Insider/August2005_InsiderNewslette… · Ecumen INSIDERINSIDER August 2005 1 AUGUST 2005 Look inside for an opportunity to

August 2005 finalcopy - Ecumenwebnet.ecumen.org/News/2005Insider/August2005_InsiderNewslette… · Ecumen INSIDERINSIDER August 2005 1 AUGUST 2005 Look inside for an opportunity to

Documents
August 29, 2005

August 29, 2005

Documents
Preference Share Issue August 2005 Preference Share Issue August 2005

Preference Share Issue August 2005 Preference Share Issue August 2005

Documents
31. August 2005

31. August 2005

Documents
Hovedstyremøte 11. august 2005

Hovedstyremøte 11. august 2005

Documents
:almat: #78 - August 2005

:almat: #78 - August 2005

Documents
Implementation of an Advection Scheme based on Piecewise Parabolic Method (PPM) in the MesoNH

Implementation of an Advection Scheme based on Piecewise Parabolic Method (PPM) in the MesoNH

Documents
2005 Interim Results August 2005

2005 Interim Results August 2005

Documents
Activated August 2005

Activated August 2005

Documents
BR August 2005 Issuu

BR August 2005 Issuu

Documents
The LaSallian (August 2005)

The LaSallian (August 2005)

Documents
EPIAn Ways August 2005

EPIAn Ways August 2005

Documents
August 5, 2005

August 5, 2005

Documents
Simulations with the MesoNH model from 27 August 2005 to 29 August 2005 (6UTC) performed by Meteo-France CNRM Nicole Asencio See powerpoint comments associated

Simulations with the MesoNH model from 27 August 2005 to 29 August 2005 (6UTC) performed by Meteo-France CNRM Nicole Asencio See powerpoint comments associated

Documents
August 2005 Examiner

August 2005 Examiner

Documents
Implementation of an Advection Scheme based on Piecewise Parabolic Method (PPM) in the MesoNH

Implementation of an Advection Scheme based on Piecewise Parabolic Method (PPM) in the MesoNH

Documents