The structure of thermals in cumulus from airborne dual-Doppler radar observations

Damiani, Rick R.

January 2005

Thesis (Ph. D.)--University of Wyoming, 2005. / Title from PDF title page (viewed on March 10, 2008). Includes bibliographical references (p. 130-139).

Cumulus Clouds

Effects of Cumulus Clouds on Solar Radiation

Blackburn, William James

04 1900

<p> An investigation of the effects of cumulus clouds on solar radiation was carried out during the 1977 field season at McMaster University, Hamilton. The measurement of total incoming solar radiation, direct beam radiation and the diffuse flux calculated as a residual, were used to draw inferences regarding the transmission properties of cumulus clouds, both on a daily basis and for different cloud fields, The diffuse flux, showing the greatest variability, was sub-divided into three components and each were evaluated under unobscured and obscured sun conditions. Measured values were compared with those derived for a model atmosphere.</p> / Thesis / Bachelor of Arts (BA)

cumulus clouds

solar radiation

transmission properties

Efeito da remoção de umidade da camada limite planetária no desenvolvimento de cúmulos rasos e profundos. / Effect of moisture removal from the planetary boundary layer on the development of shallow and deep cumuli.

FIGUEIRA, Waléria Souza.

14 May 2018

Submitted by Emanuel Varela Cardoso (emanuel.varela@ufcg.edu.br) on 2018-05-14T20:44:44Z No. of bitstreams: 1 WALÉRIA SOUZA FIGUEIRA – DISSERTAÇÃO (PPGMET) 2015.pdf: 2735921 bytes, checksum: c2ab85caa20115480b90d1325acfad13 (MD5) / Made available in DSpace on 2018-05-14T20:44:44Z (GMT). No. of bitstreams: 1 WALÉRIA SOUZA FIGUEIRA – DISSERTAÇÃO (PPGMET) 2015.pdf: 2735921 bytes, checksum: c2ab85caa20115480b90d1325acfad13 (MD5) Previous issue date: 2015-03-05 / CNPq / Este trabalho teve como objetivo estudar o efeito da remoção de umidade da camada limite planetária por cúmulos rasos. Para tal, esse efeito foi inserido no código do modelo BRAMS. Foram realizados dois experimentos: no primeiro experimento de controle (EXP_ORI), o modelo foi inicializado em sua forma original e no segundo (EXP_AJUST), o modelo foi integrado para as mesmas condições que o EXP_ORI, porém com o devido ajuste realizado no código do BRAMS. O modelo foi integrado para um período de 774 horas a partir da 00 UTC do dia 1° de janeiro até a 00 UTC do dia 1° de fevereiro de 2011. Para facilitar a análise quanto ao impacto desse ajuste no ciclo diário médio das variáveis termodinâmicas de superfície e da precipitação convectiva, foram feitas médias em duas áreas distintas de 1°x1°, uma área sobre superfície florestada (localizada no sul do Amazonas) e outra área sobre superfície desflorestada (localizada no norte da Bolívia). De forma geral, os resultados mostraram que houve diferenças notáveis no perfil termodinâmico da troposfera inferior devido à implementação do novo ajuste. As taxas de aquecimento e umedecimento, em ambas as áreas, tiveram picos as 09 e 09:30 horas local, embora o seu efeito líquido tenha se mostrado nas horas seguintes, o principal impacto ocorreu no início da tarde. O ciclo diário dos fluxos à superfície também foram sensíveis ao ajuste realizado no modelo. Já o comportamento e a quantidade da precipitação convectiva acumulada ao longo do dia foram melhorados no EXP_AJUST, principalmente na área desflorestada. / The objective of this work was to the effects of moisture removal from the planetary boundary layer by shallow cumulus. To reach this goal, this effect was implemented into the BRAMS model code. Two experiments were performed: in the control experiment (EXP_ORI), the model was initialized in its original form and in the second one (EXP_AJUST) the model was run to the same conditions as the EXP_ORI but with due adjustment made in BRAMS code. The model was run for a period of 774 hours, from 00 UTC of 1 January to 00 UTC of 1 February 2011. To facilitate the analysis of the impact of this adjustment on the mean daily cycle of thermodynamic variables of surface and convective precipitation, averages were performed in two different areas of 1° x 1°, an area of forested area (located in the south of the Amazon) and other deforested area on surface (located in northern Bolivia). Overall, the results showed that there were important differences in the thermodynamic profile of the lower troposphere due to the implementation of new setting in the BRAMS code. Values of moistening and heating rates in both areas peaked around 09 and 09:30 local time, although their net effect were felt later, the impact occurred mainly early afternoon. The daily cycle of surface fluxes were also sensitive to the adjustment performed in the model. Also the behavior and the amount of convective precipitation accumulated during the day in EXP_AJUST were improved, especially in deforested area.

Meteorologia

GeoCiências

Camada limite planetária

Cúmulos rasos

Cúmulos profundos

Remoção de umidade

Ciclo diário

BRAMS

Planetary boundary layer

Cumulus clouds

Cumulus clouds

Removing moisture

Daily Cycle

Aerosol Physicochemical Properties in Relation to Meteorology: Case Studies in Urban, Marine and Arid Settings

Wonaschuetz, Anna

January 2012

Atmospheric aerosols are a highly relevant component of the climate system affecting atmospheric radiative transfer and the hydrological cycle. As opposed to other key atmospheric constituents with climatic relevance, atmospheric aerosol particles are highly heterogeneous in time and space with respect to their size, concentration, chemical composition and physical properties. Many aspects of their life cycle are not understood, making them difficult to represent in climate models and hard to control as a pollutant. Aerosol-cloud interactions in particular are infamous as a major source of uncertainty in future climate predictions. Field measurements are an important source of information for the modeling community and can lead to a better understanding of chemical and microphysical processes. In this study, field data from urban, marine, and arid settings are analyzed and the impact of meteorological conditions on the evolution of aerosol particles while in the atmosphere is investigated. Particular attention is given to organic aerosols, which are a poorly understood component of atmospheric aerosols. Local wind characteristics, solar radiation, relative humidity and the presence or absence of clouds and fog are found to be crucial factors in the transport and chemical evolution of aerosol particles. Organic aerosols in particular are found to be heavily impacted by processes in the liquid phase (cloud droplets and aerosol water). The reported measurements serve to improve the process-level understanding of aerosol evolution in different environments and to inform the modeling community by providing realistic values for input parameters and validation of model calculations.

organic aerosols

shallow cumulus clouds

smelter

toxic metals

Atmospheric Sciences

aerosol particles

hygroscopic growth