MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)

MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)

In this study, the mechanism of initiation and regeneration convective cell in the Bandung Basin are investigated using a numerical model. Numerical model simulations were carried out using case studies in the February - March 2019 based on Cumulative Distribution Function (CDF) and Regeneration Ind...

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Main Author: Maulana Firdaus, Irfans
Format: Theses
Language:Indonesia
Subjects:
Ilmu kebumian
Online Access:https://digilib.itb.ac.id/gdl/view/73766
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:73766
spelling id-itb.:737662023-06-23T12:55:46ZMECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019) Maulana Firdaus, Irfans Ilmu kebumian Indonesia Theses Initiation, Regeneration, Convective cell, Bandung basin, Cold pool. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/73766 In this study, the mechanism of initiation and regeneration convective cell in the Bandung Basin are investigated using a numerical model. Numerical model simulations were carried out using case studies in the February - March 2019 based on Cumulative Distribution Function (CDF) and Regeneration Index (RegI). The mechanism of convective cell initiation is described as follows: (i) Upslope wind is formed by solar heating effect and flows to the north and south of the basin, carrying water vapor from the bottom of the basin. (ii) Low-level convergence is formed in the mountain peak region due to the convergence of winds from bottom of the basin and outside of the basin. (iii) Convective initiation is formed due to the updraft by generated from low-level convergence, causing unstable atmosphere. While the mechanism of convective cells regeneration is described as follows: (i) Convective systems which develop in mountains produce rain and generate cold pools on the surface. The cold pool will fall down the slopes and convective activity from the mountainous will continue to the bottom of basin. (ii) The outflow from this convective system causes the cold pool to extend to west-east. (iii) The cold pool will collide with warmer air from the opposite direction, resulting an updraft at the cold pool leading edge (CPLE) and convective will re-initiate (convective regeneration) in the Bandung Basin, with the new convective system tend to move eastward. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Ilmu kebumian
spellingShingle Ilmu kebumian
Maulana Firdaus, Irfans
MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
description In this study, the mechanism of initiation and regeneration convective cell in the Bandung Basin are investigated using a numerical model. Numerical model simulations were carried out using case studies in the February - March 2019 based on Cumulative Distribution Function (CDF) and Regeneration Index (RegI). The mechanism of convective cell initiation is described as follows: (i) Upslope wind is formed by solar heating effect and flows to the north and south of the basin, carrying water vapor from the bottom of the basin. (ii) Low-level convergence is formed in the mountain peak region due to the convergence of winds from bottom of the basin and outside of the basin. (iii) Convective initiation is formed due to the updraft by generated from low-level convergence, causing unstable atmosphere. While the mechanism of convective cells regeneration is described as follows: (i) Convective systems which develop in mountains produce rain and generate cold pools on the surface. The cold pool will fall down the slopes and convective activity from the mountainous will continue to the bottom of basin. (ii) The outflow from this convective system causes the cold pool to extend to west-east. (iii) The cold pool will collide with warmer air from the opposite direction, resulting an updraft at the cold pool leading edge (CPLE) and convective will re-initiate (convective regeneration) in the Bandung Basin, with the new convective system tend to move eastward.
format Theses
author Maulana Firdaus, Irfans
author_facet Maulana Firdaus, Irfans
author_sort Maulana Firdaus, Irfans
title MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
title_short MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
title_full MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
title_fullStr MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
title_full_unstemmed MECHANISM OF INITIATION AND REGENERATION CONVECTIVE CELL IN BANDUNG BASIN (CASE STUDY: FEBRUARY - MARCH 2019)
title_sort mechanism of initiation and regeneration convective cell in bandung basin (case study: february - march 2019)
url https://digilib.itb.ac.id/gdl/view/73766
_version_ 1822007203787177984

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