Climate Model Berlin - Analysis Maps 2005

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Texts

  • Climate Model Berlin - Analysis Maps as Word document

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  • Climate Model Berlin - Analysis Maps as PDF document

    PDF-Document (1.1 MB)

Maps

  • 04.10.01 Air Temperature 10:00 p.m

    PDF-Document (11.0 MB)

  • 04.10.02 Air Temperature 06:00 a.m

    PDF-Document (10.9 MB)

  • 04.10.03 Near ground Air Field and Air Exchange 10:00 p.m

    PDF-Document (11.9 MB)

  • 04.10.04 Near ground Air Field and Air Exchange 06:00 a.m.

    PDF-Document (12.3 MB)

  • 04.10.05 Near ground Air Field and Air Mass Flow 10:00 p.m.

    PDF-Document (12.0 MB)

  • 04.10.06 Near ground Air Field and Air Mass Flow 06:00 a.m

    PDF-Document (12.4 MB)

Figures

  • Fig. 1: Classification of the land use for the model application. A key with 12 use classes is used, adjusted to the requirements of the FITNAH model.

    JPG-Document

  • Fig. 2: Detail from the Automated Property Map (indication of numbers of storeys in Roman numerals)

    GIF-Document (11.4 kB)

  • Fig. 3: Database and data flow for the application of the climate model FITNAH

    GIF-Document (50.5 kB)

  • Fig. 4: Example for the representation of a natural landscape, in model-terrain character

    GIF-Document (43.3 kB)
    Image: from: Richter & Röckle o.J.

  • Fig. 5: Verification of the results of the climate model FITNAH (Fig. right) on the basis of stationary and mobile measurements in the area of Gleisdreieck in the left Figure, the lines emanating from the measurement points point in the direction from which the wind comes; in the right Figure, the wind arrows point in the flow direction.

    JPG-Document (123.3 kB)
    Image: Fig. left: from Vogt 2002a and Vogt 2002b

  • Fig. 6: Areas involved in cold-air generation or cold air out-flow in the urban areas of Berlin during a low-exchange cloudless summer night (10 PM; grid resolution: 50 m)

    GIF-Document (67.4 kB)

  • Fig. 7: Situation of the test areas A, B and C for the clarification of the processes "cold air generation" and "cold-air out-flow" during a low-exchange cloudless summer night (10 PM; grid resolution: 50 m)

    GIF-Document (67.2 kB)

  • Fig. 8: Air exchange per grid cell and autochthonous current field in the area of Tempelhof Airport during a low-exchange cloudless summer night (10 PM; grid resolution: 50 m)

    GIF-Document

  • Fig. 9: Air exchange per grid cell and autochthonous flow field in the Spandau area during a low-exchange cloudless summer night (10 PM; grid resolution: 50 m)

    GIF-Document

  • Fig. 10: Air exchange per grid cell and the autochthonous current field in the Grunewald-Wilmersdorf transition zone during a low-exchange cloudless summer night (10 PM; grid resolution: 50 m)

    GIF-Document

Tables

  • Tab. 1: Proportion of spaces in the city area involved in the formation of autochthonous current systems. The thermally and orographically (relief-caused) induced current systems are distinguished.

    JPG-Document (36.7 kB)

  • Tab. 2: Cold-air volume flow in the Berlin boroughs during a cloudless summer night

    GIF-Document (10.6 kB)

  • Tab. 3: Mean air-exchange rate, volume flow and flow speed of the topographically generated wind per grid cell along a corridor section in the Tempelhof Airport area during a low-exchange cloudless summer night (grid resolution: 50 m)

    GIF-Document (10.0 kB)

  • Tab. 4: Mean air exchange rate, volume flow and flow speed of topographically generated wind per grid cell along the corridor section in Spandau during a low-exchange cloudless summer night (grid resolution: 50 m)

    GIF-Document (9.7 kB)

  • Tab. 5: Mean air-exchange rate, volume flow and flow speed of the topographically generated wind per grid cell along the corridor section in the Grunewald-Wilmersdorf transition zone during a low-exchange cloudless summer night (grid resolution: 50 m)

    GIF-Document (10.1 kB)