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====== 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 | + | In this section, you will find a collection of different example models for ENVI-met (including associated |
+ | |||
+ | **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... | ||
+ | |||
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+ | <WRAP column 100px> \\ [[examples: | ||
+ | //**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: | ||
+ | </ | ||
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+ | <WRAP clear></ | ||
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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: | 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: | ||
</ | </ | ||
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</ | </ | ||
//**German Foreign Embassy Berlin**// | //**German Foreign Embassy Berlin**// | ||
- | (empty) | + | This example model file will come with the TreePass in the next release! |
- | [[examples: | + | \\ |
+ | \\ | ||
</ | </ | ||
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- | //**Case Study: | + | //**Improving Outdoor |
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: | [[examples: | ||
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</ | </ | ||
- | //**Case Study: | + | // |
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: | [[examples: | ||
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- | //**Case Study: | + | // |
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: | [[examples: | ||
+ | \\ | ||
+ | \\ | ||
</ | </ | ||
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</ | </ | ||
- | //**Case Study: | + | //**Solar Radiation |
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: | [[examples: | ||
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- | //**Case Study: | + | //**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: | [[examples: | ||
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</ | </ | ||
- | //**Case Study: | + | //**Influence of Precipitation |
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: | [[examples: | ||
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- | //**Case Study: | + | //**Analysing |
- | 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 |
[[examples: | [[examples: | ||
</ | </ | ||
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</ | </ | ||
- | //**Case Study: | + | // |
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: | [[examples: | ||
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- | //**Case Study: Painting LA streets white**// | + | //**Heat Mitigation: Painting LA Streets White**// |
- | (to come...) | + | One adaption strategy |
[[examples: | [[examples: | ||
+ | </ | ||
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+ | <WRAP column 100px> \\ [[examples: | ||
+ | //**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: | ||
</ | </ | ||