MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG
<b>Abstract: </b><br>Couple model of droplet growth is developed by three kinds of processes, which are dynamic, thermodynamic, and cloud physics that assume water vapor is present between ground surface and tropopause layer. Updraft in boundary condition is zero. Factor of converg...
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id-itb.:30172005-09-15T18:13:19ZMODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG Martuani Siregar, Plato Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/3017 <b>Abstract: </b><br>Couple model of droplet growth is developed by three kinds of processes, which are dynamic, thermodynamic, and cloud physics that assume water vapor is present between ground surface and tropopause layer. Updraft in boundary condition is zero. Factor of convergence, lateral advection, turbulent montion, updraft vorticity, and ice phase are neglected, then developed numerical modeling in one dimention of the formation, of droplet growth. This model is very sensitive to initial conditons.<p>The formation of droplet growth requires high supersaturated vapor to oppose curvature term. For the saturation ratio at relative humidities less than 100 %, droplet growth will be blocked by curvature term, so it needs addition of amonium sulfat solution to an air parcel until droplet radius 0.13 micrometer, after critical saturation ratio is formed, droplet will grow although relative humidities approach one. On the other hand,solution effect growth is increased by heat conduction and vapor diffusion becomes droplet of radius around 10 micrometer.</p>A major part of solar radiation have absorbed by the surface of the earth. The atmosphere then becomes unstable due to the heating around ground,and thus convection is generated in the troposphere. The temperature of an air parcel moving upward decreases because of the adiabatic expansion,while water vapor in the air is warmed when it condenses. The temperature lapse rate in the troposphere is thus determined by balance of water vapor in the atmosphere. Using ratio sonde data at LAPAN Bandung period in the 1992-1996 to optimize model trend and do verification, after that modeling can be used to estimate updraft rate, pacel temperature, rain mixing ratio, and mixing ratio of the condensed water in the atmosphere.<p>Convection process is determined in cloud droplet growth. The formation of cloud causes give temperature variations and mixing ratio in atmosphere. It can be seen that temperature variations in the level of 1500m over Bandung is larger than near ground. In this level, the cloud will be formed to absorb solar radiation, current air in cloud and separation of electrical dipole of water moleculer which will give temperature variation of air parcel. text |
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<b>Abstract: </b><br>Couple model of droplet growth is developed by three kinds of processes, which are dynamic, thermodynamic, and cloud physics that assume water vapor is present between ground surface and tropopause layer. Updraft in boundary condition is zero. Factor of convergence, lateral advection, turbulent montion, updraft vorticity, and ice phase are neglected, then developed numerical modeling in one dimention of the formation, of droplet growth. This model is very sensitive to initial conditons.<p>The formation of droplet growth requires high supersaturated vapor to oppose curvature term. For the saturation ratio at relative humidities less than 100 %, droplet growth will be blocked by curvature term, so it needs addition of amonium sulfat solution to an air parcel until droplet radius 0.13 micrometer, after critical saturation ratio is formed, droplet will grow although relative humidities approach one. On the other hand,solution effect growth is increased by heat conduction and vapor diffusion becomes droplet of radius around 10 micrometer.</p>A major part of solar radiation have absorbed by the surface of the earth. The atmosphere then becomes unstable due to the heating around ground,and thus convection is generated in the troposphere. The temperature of an air parcel moving upward decreases because of the adiabatic expansion,while water vapor in the air is warmed when it condenses. The temperature lapse rate in the troposphere is thus determined by balance of water vapor in the atmosphere. Using ratio sonde data at LAPAN Bandung period in the 1992-1996 to optimize model trend and do verification, after that modeling can be used to estimate updraft rate, pacel temperature, rain mixing ratio, and mixing ratio of the condensed water in the atmosphere.<p>Convection process is determined in cloud droplet growth. The formation of cloud causes give temperature variations and mixing ratio in atmosphere. It can be seen that temperature variations in the level of 1500m over Bandung is larger than near ground. In this level, the cloud will be formed to absorb solar radiation, current air in cloud and separation of electrical dipole of water moleculer which will give temperature variation of air parcel. |
| format |
Theses |
| author |
Martuani Siregar, Plato |
| spellingShingle |
Martuani Siregar, Plato MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| author_facet |
Martuani Siregar, Plato |
| author_sort |
Martuani Siregar, Plato |
| title |
MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| title_short |
MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| title_full |
MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| title_fullStr |
MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| title_full_unstemmed |
MODEL 1-D PERTUMBUHAN BUTIRAN AWAN KONVEKSI DI DAERAH BANDUNG |
| title_sort |
model 1-d pertumbuhan butiran awan konveksi di daerah bandung |
| url |
https://digilib.itb.ac.id/gdl/view/3017 |
| _version_ |
1820663320076615680 |