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--- aermet [2025/05/15 10:32] – murilogerber
+++ aermet [2025/05/15 11:05] (current) – [3.2.3. Upper Air Data] murilogerber
@@ Line 10: / Line 10: @@
 ^ Aspect ^ Details ^
 | Objective | Preprocess meteorological data for [[aermod|AERMOD]], generating atmospheric profiles and planetary boundary layer (PBL) parameters. |
-| Inputs | Surface data, upper-air sounding (radiosonde), and site characteristics (Surface roughness length (Zo), Albedo (Alb), and Bowen ratio (Bo)). |
+| Inputs | Surface data, upper-air sounding (radiosonde), and site characteristics (Surface roughness length (**Zo**), Albedo (**Alb**), and Bowen ratio (**Bo**)). |
-| Outputs | • .SFC file - Processed surface data (10m wind, temperature, turbulence parameters) \ • .PFL file - Vertical atmospheric profiles (wind/temperature aloft, PBL height) |
+| Outputs | • ''.SFC file'' - Processed surface data (10m wind, temperature, turbulence parameters) \ • ''.PFL file'' - Vertical atmospheric profiles (wind/temperature aloft, PBL height) |
 ===== 3.2. Required Files for AERMET =====
@@ Line 18: / Line 18: @@
 First, download the executable from the [[https://www.epa.gov/scram/meteorological-processors-and-accessory-programs|EPA AERMET]] website.
-Navigate to the MODEL CODE section and click the executable compatible with your operating system version, as shown in [[#Figure 1|Figure 1]]. Extract the downloaded file to the folder:
+Navigate to the **MODEL CODE** section and click the executable compatible with your operating system version, as shown in [[#Figure 1|Figure 1]]. Extract the downloaded file to the folder:
 ''C:\Users\Cliente\Desktop\AermodTutorial\3.AERMET''.
@@ Line 40: / Line 40: @@
 </WRAP>
-Now search for the file named ''724397-54831-2024.gz'' (for the Central Illinois Regional Airport station), download it, and extract it to the folder:
+Now search for the file named ''724397-54831-2024.gz'' (for the ''Central Illinois Regional Airport station''), download it, and extract it to the folder:
 ''C:\Users\Cliente\Desktop\AermodTutorial\3.AERMET''.
 Finally, rename the file to ''724397-54831-2024.dat'', create a subfolder named ''Surface_data'', and move the file there, as shown in [[#Figure 3|Figure 3]]:
@@ Line 53: / Line 53: @@
 ==== 3.2.3. Upper Air Data ====
-Lastly, download the radiosonde data from the [[https://www.ncei.noaa.gov/data/integrated-global-radiosonde-archive/access/data-por/|radiosonde archive]], searching for the station ''USM00074560-data'' (for Lincoln, IL, the closest radiosonde station to Bloomington).
+Lastly, download the radiosonde data from the [[https://www.ncei.noaa.gov/data/integrated-global-radiosonde-archive/access/data-por/|radiosonde archive]], searching for the station ''USM00074560-data'' (for ''Lincoln, IL'', the closest radiosonde station to Bloomington).
 Download the file as shown in [[#Figure 4|Figure 4]], and extract it to:
 ''C:\Users\Cliente\Desktop\AermodTutorial\3.AERMET''.
@@ Line 78: / Line 78: @@
 Now that all required input data is ready, we will split the processing into two stages:
-Stage 1: Extracts surface and upper-air data from archived formats and performs quality control.
+  * Stage 1: Extracts surface and upper-air data from archived formats and performs quality control.
+  * Stage 2: Processes Stage 1 outputs to calculate boundary layer parameters for [[aermod|AERMOD]].
-Stage 2: Processes Stage 1 outputs to calculate boundary layer parameters for [[aermod|AERMOD]].
 The workflow is illustrated in [[#Figure 6|Figure 6]]:
@@ Line 169: / Line 168: @@
 Open Command Prompt and run:
-Navigate to the folder:
+  - Navigate to the folder: ''cd C:\Users\Cliente\Desktop\AermodTutorial\3.AERMET''
-''cd C:\Users\Cliente\Desktop\AermodTutorial\3.AERMET''
+  - Execute Stage 1: ''aermet aermet_STG1.txt'' ([[#Figure 8|Figure 8]])
+  - Execute Stage 2: ''aermet aermet_STG2.txt'' ([[#Figure 9|Figure 9]])
-Execute Stage 1:
-''aermet aermet_STG1.txt'' ([[#Figure 8|Figure 8]])
-Execute Stage 2:
-''aermet aermet_STG2.txt'' ([[#Figure 9|Figure 9]])
 == Figure 8 ==