Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision
Previous revision
examples:start [2021/03/08 17:17] enviadminexamples:start [2023/07/27 13:16] (current) florians
Line 1: Line 1:
 ====== Example Models and Model Data ====== ====== Example Models and Model Data ======
  
-In this section, you will find a collection of different example models for ENVI-met (both .INX and .SIM files) and some example data from model simulations.+In this section, you will find a collection of different example models for ENVI-met (including associated .INX and .SIMX files plus other data) and simulated sample data from model simulations
 + 
 +**Please note:** 
 +  * Be aware that the sample model outputs can be huge in file size... 
 +  * Some files have been simulated with Version 4.x. Some Variable names have been adjusted in V5, so Python scripts might need adjustment.
  
  
-Be aware that the sample model outputs can be huge in file size... 
  
 +
 +
 +<WRAP box left 43%>
 +
 +<WRAP column 100px> \\ [[examples:nyc_columbus|{{ ::examples:nyc_columbusc.png?nolink&400  |}}]]</WRAP>
 +//**Dynamic Comfort: Columbus Circle**//
 +Sample data set (INX File with Route, Atmosphere data) for the new Dynamic Thermal Comfort Module. \\ 
 +Data supplied: Model data and sample results [[examples:nyc_columbus|Enter...]]
 +</WRAP>
 +
 +
 +<WRAP clear></WRAP>
  
  
Line 13: Line 28:
 The Urban Layout model is a small (100 x 100 x 20 Grids) model that shows a simple urban scene including the use of receptors. Data supplied: Model data and Sample Results [[examples:urbanlayout|Enter...]] The Urban Layout model is a small (100 x 100 x 20 Grids) model that shows a simple urban scene including the use of receptors. Data supplied: Model data and Sample Results [[examples:urbanlayout|Enter...]]
 </WRAP> </WRAP>
- 
  
 <WRAP box left 43%> <WRAP box left 43%>
Line 20: Line 34:
 </WRAP> </WRAP>
 //**German Foreign Embassy Berlin**// //**German Foreign Embassy Berlin**//
-(empty) +This example model file will come with the TreePass in the next release!
  
-[[examples:start|Enter...]]+\\ 
 +\\
 </WRAP> </WRAP>
  
Line 30: Line 45:
 <WRAP box left 43%> <WRAP box left 43%>
 <WRAP column 100px> \\ [[examples:thermalcomfort|{{ ::examples:thermal_pic.png?nolink |}}]] </WRAP> <WRAP column 100px> \\ [[examples:thermalcomfort|{{ ::examples:thermal_pic.png?nolink |}}]] </WRAP>
-//**Case Study: Thermal Comfort**//+//**Improving Outdoor Thermal Comfort**//
 The Thermal Comfort Case Study is a small (200 x 190 x 30 Grids) model that was used to analyze minimal invasive climate adaptation strategies to mitigate urban excess heat. The Thermal Comfort Case Study is a small (200 x 190 x 30 Grids) model that was used to analyze minimal invasive climate adaptation strategies to mitigate urban excess heat.
 [[examples:thermalcomfort|Enter...]] [[examples:thermalcomfort|Enter...]]
Line 39: Line 54:
 <WRAP column 100px>\\ [[examples:vegetation|{{ ::examples:veg_pic.png?nolink |}}]] <WRAP column 100px>\\ [[examples:vegetation|{{ ::examples:veg_pic.png?nolink |}}]]
 </WRAP> </WRAP>
-//**Case Study: Vegetation**//+//**Vegetation Vitality and Microclimate**//
 The Vegetation Case Study is a small (100 x 60 x 30 Grids) model that was used to analyze the influence of different microclimates onto the tree vitality. The Vegetation Case Study is a small (100 x 60 x 30 Grids) model that was used to analyze the influence of different microclimates onto the tree vitality.
 [[examples:vegetation|Enter...]] [[examples:vegetation|Enter...]]
Line 50: Line 65:
 <WRAP box left 43%> <WRAP box left 43%>
 <WRAP column 100px> \\ [[examples:windflow|{{ ::examples:wf_area.png?nolink |}}]] </WRAP> <WRAP column 100px> \\ [[examples:windflow|{{ ::examples:wf_area.png?nolink |}}]] </WRAP>
-//**Case Study: Windflow**//+//**Windflow in the City of Phoenix**//
 The Windflow Case Study is a complex (300 x 300 x 25 Grids) model that was used to analyze windflow within the city of Phoenix. The Windflow Case Study is a complex (300 x 300 x 25 Grids) model that was used to analyze windflow within the city of Phoenix.
 [[examples:windflow|Enter...]] [[examples:windflow|Enter...]]
 +\\
 +\\
 </WRAP> </WRAP>
  
Line 59: Line 76:
 <WRAP column 100px>\\ [[examples:solarradiation|{{ ::examples:rad_simgebiet.png?nolink |}}]] <WRAP column 100px>\\ [[examples:solarradiation|{{ ::examples:rad_simgebiet.png?nolink |}}]]
 </WRAP> </WRAP>
-//**Case Study: Solar Radiation**//+//**Solar Radiation and Access in Manhattan**//
 The Solar Radiation Case Study is a complex (1778 m x 1512 m x 784 m) model of Manhattan that was used to analyze solar access within the city. The Solar Radiation Case Study is a complex (1778 m x 1512 m x 784 m) model of Manhattan that was used to analyze solar access within the city.
 [[examples:solarradiation|Enter...]] [[examples:solarradiation|Enter...]]
Line 70: Line 87:
 <WRAP box left 43%> <WRAP box left 43%>
 <WRAP column 100px> \\ [[examples:airpollution|{{ ::examples:ap_ozone_3d.png?nolink |}}]] </WRAP> <WRAP column 100px> \\ [[examples:airpollution|{{ ::examples:ap_ozone_3d.png?nolink |}}]] </WRAP>
-//**Case Study: Air Pollution**//+//**Air Pollution: Simulating Ozone in an Urban Area**//
 The Air Pollution Case Study is a complex (2000 x 1200 x 90 m) model that was used analyze the concentration and distribution of O3 in an urban area. The Air Pollution Case Study is a complex (2000 x 1200 x 90 m) model that was used analyze the concentration and distribution of O3 in an urban area.
 [[examples:airpollution|Enter...]] [[examples:airpollution|Enter...]]
Line 79: Line 96:
 <WRAP column 100px>\\ [[examples:precipitation|{{ ::examples:prec.png?nolink |}}]] <WRAP column 100px>\\ [[examples:precipitation|{{ ::examples:prec.png?nolink |}}]]
 </WRAP> </WRAP>
-//**Case Study: Precipitation**//+//**Influence of Precipitation on Vegetation and Natural Surfaces**//
 The Precipitation Case Study is a small model that was used to analyze the influence of precipitation onto vegetation and natural surfaces. The Precipitation Case Study is a small model that was used to analyze the influence of precipitation onto vegetation and natural surfaces.
 [[examples:precipitation|Enter...]] [[examples:precipitation|Enter...]]
Line 90: Line 107:
 <WRAP box left 43%> <WRAP box left 43%>
 <WRAP column 100px> \\ [[examples:facades|{{ ::examples:facades_pic.png?nolink |}}]] </WRAP> <WRAP column 100px> \\ [[examples:facades|{{ ::examples:facades_pic.png?nolink |}}]] </WRAP>
-//**Case Study: Facade Research**// +//**Analysing Facade Materials**// 
-The Vegetation Case Study is a small (50 x 50 x 30 Grids) model that was used analyze the different behaviors of a variety of façade materials.+This example is a small (50 x 50 x 30 Grids) model that was used analyze the different behaviors of a variety of façade materials.
 [[examples:facades|Enter...]] [[examples:facades|Enter...]]
 </WRAP> </WRAP>
Line 99: Line 116:
 <WRAP column 100px>\\ [[examples:insideoutside|{{ ::examples:bp_simgebiet.png?nolink |}}]] <WRAP column 100px>\\ [[examples:insideoutside|{{ ::examples:bp_simgebiet.png?nolink |}}]]
 </WRAP> </WRAP>
-//**Case Study: Connecting Inside and Outside**//+//**Connecting Inside and Outside**//
 In the Connecting Inside & Outside Case Study, a small (40 x 40 x 30 Grids) model was used to analyze the different behaviors of a variety of façade materials and their influence on the building inside air temperature. In the Connecting Inside & Outside Case Study, a small (40 x 40 x 30 Grids) model was used to analyze the different behaviors of a variety of façade materials and their influence on the building inside air temperature.
 [[examples:insideoutside|Enter...]] [[examples:insideoutside|Enter...]]
Line 109: Line 126:
  
 <WRAP box left 43%> <WRAP box left 43%>
-<WRAP column 100px> \\ [[examples:whitestreets|{{ ::arrow.png?nolink 30  |}}]] </WRAP> +<WRAP column 100px> \\ [[examples:whitestreets|{{:examples:modelarea_whitestreets.jpg?nolink |}}]] </WRAP> 
-//**Case Study: Painting LA streets white**// +//**Heat Mitigation: Painting LA Streets White**// 
-(to come...+One adaption strategy to mitigate the Urban Heat Island effect is coating streets with a high albedo material to decrease surface temperatures of streetsIn this case study, one of LA’s oldest neighborhoods, Angelino Heights, was simulated in order to analyze changes caused by different surface materials.
 [[examples:whitestreets|Enter...]] [[examples:whitestreets|Enter...]]
 +</WRAP>
 +
 +<WRAP box left 43%>
 +<WRAP column 100px> \\ [[examples:soiltemperature|{{ ::examples:Soil_temp.png?nolink  |}}]]</WRAP>
 +//**Soil Temperature**//
 +The soil temperature model area is a small (47 x 39 x 25 Grids) model, which shows the impact on summer time microclimate of dry soils compared to sealed surfaces. Data supplied: Model data and Sample Results [[examples:soiltemperature|Enter...]]
 </WRAP> </WRAP>