VISIBILITY PREDICTION EVALUATION FOR AIR TRANSPORTATION SAFETY IN INDONESIA (CASE STUDY : KERTAJATI AIRPORT)
Low visibility condition often occurs on Indonesia, including on Kertajati region. Kertajati Airport is an international airport located in Majalengka, West Java. The location is close to the Ciremai Mountains, one of the highest mountains in West Java. This topographic condition makes Kertajati...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/75655 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Low visibility condition often occurs on Indonesia, including on Kertajati region.
Kertajati Airport is an international airport located in Majalengka, West Java.
The location is close to the Ciremai Mountains, one of the highest mountains in
West Java. This topographic condition makes Kertajati prone to fog, especially
during the rainy season. Based on January 2022 METAR data, the Kertajati area
has significant visibility changes due to fog. So there is a need for further
visibility predictions.
In this study, visibility prediction was performed using Weather Research and
Forcasting (WRF). The output of WRF will be estimated visibility with diagnostic
equations. Then, this study will evaluate visibility predictions on two low visibility
condition events, January 2, 2022 and January 21, 2022 with a minimum visibility
value of 200 meters. There are 7 methods used to predict visibility in January
2022 in the Kertajati region. The data used in this study are prediction data from
the NCEP-GFS and observation data from METAR. The 7 methods used in
estimating visibility in Kertajati are categorized in 3 groups, those are the Vis
RH-based parameterization with 4 diagnostic equations, Vis LWC-based
parameterization with 2 diagnostic equations, and other parameterizations with
one diagnostic equation.
The results of this study indicate that during the low visibility event of the two
events, the Relative Humidity (RH) based method tends to have a large visibility
difference with observations. This happens because the RH variable used in the
estimation equation is not well simulated by WRF. This can be seen from the
temperature depression value in the model is higher so that RH tends to be lower
and have good visibility. For the method used, at times the model with low
visibility tends to overestimate the result (parameterisation Vis RH-based) and
inclined underestimate (parameterization Vis LWC-based and other
parameterization). The best method in diurnal low visibility events 1 and 2 is the
Vis based RH_2 method, which has a smaller RMSE of 2824.87 meters and
3537.76 meters. |
|---|