Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set

<p> Assimilation of observation data in cloudy regions has been challenging due to the unknown properties of clouds such as cloud depth, cloud vertical profiles, or cloud drop size distributions. Attempts to assimilate data in cloudy regions generally assume a drop size distribution, but most...

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Main Author: Lee, Yoonjin
Language:EN
Published: Colorado State University 2017
Subjects:
Online Access:http://pqdtopen.proquest.com/#viewpdf?dispub=10259235
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spelling ndltd-PROQUEST-oai-pqdtoai.proquest.com-102592352017-07-13T16:15:45Z Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set Lee, Yoonjin Meteorology <p> Assimilation of observation data in cloudy regions has been challenging due to the unknown properties of clouds such as cloud depth, cloud vertical profiles, or cloud drop size distributions. Attempts to assimilate data in cloudy regions generally assume a drop size distribution, but most assimilation systems fail to maintain consistency between models and the observation data, as each has its own set of assumptions. This study tries to retain the consistency between the forecast model and the retrieved data by developing a Bayesian retrieval scheme that uses the forecast model itself for the a-priori database. Through the retrieval algorithm, vertical profiles of three variables related to the development of tropical cyclones, including vertical velocity, latent heating, and hydrometeor water contents are derived from the same reflectivity observation. Vertical velocity and latent heating are variables related to dynamical processes of tropical cyclones, whereas hydrometeors are byproducts of those processes. Each retrieved variable is assimilated in the data assimilation system using a flow dependent forecast error covariance matrix. The simulations are compared to evaluate the respective impact of each variable in the assimilation system. </p><p> In this study, the three assimilation experiments were conducted for two hurricane cases captured by the Global Precipitation Measurement (GPM) satellite: Hurricane Pali and Hurricane Jimena. Analyses from these two hurricane cases suggest that assimilating latent heating and hydrometeor water contents have similar impacts on the assimilation system while vertical velocity has less of an impact than the other two variables. Using these analyses as an initial condition for the forecast model reveals that the assimilations of retrieved latent heating and hydrometeor water contents were also able to improve the track forecast of Hurricane Jimena.</p> Colorado State University 2017-07-12 00:00:00.0 thesis http://pqdtopen.proquest.com/#viewpdf?dispub=10259235 EN
collection NDLTD
language EN
sources NDLTD
topic Meteorology
spellingShingle Meteorology
Lee, Yoonjin
Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
description <p> Assimilation of observation data in cloudy regions has been challenging due to the unknown properties of clouds such as cloud depth, cloud vertical profiles, or cloud drop size distributions. Attempts to assimilate data in cloudy regions generally assume a drop size distribution, but most assimilation systems fail to maintain consistency between models and the observation data, as each has its own set of assumptions. This study tries to retain the consistency between the forecast model and the retrieved data by developing a Bayesian retrieval scheme that uses the forecast model itself for the a-priori database. Through the retrieval algorithm, vertical profiles of three variables related to the development of tropical cyclones, including vertical velocity, latent heating, and hydrometeor water contents are derived from the same reflectivity observation. Vertical velocity and latent heating are variables related to dynamical processes of tropical cyclones, whereas hydrometeors are byproducts of those processes. Each retrieved variable is assimilated in the data assimilation system using a flow dependent forecast error covariance matrix. The simulations are compared to evaluate the respective impact of each variable in the assimilation system. </p><p> In this study, the three assimilation experiments were conducted for two hurricane cases captured by the Global Precipitation Measurement (GPM) satellite: Hurricane Pali and Hurricane Jimena. Analyses from these two hurricane cases suggest that assimilating latent heating and hydrometeor water contents have similar impacts on the assimilation system while vertical velocity has less of an impact than the other two variables. Using these analyses as an initial condition for the forecast model reveals that the assimilations of retrieved latent heating and hydrometeor water contents were also able to improve the track forecast of Hurricane Jimena.</p>
author Lee, Yoonjin
author_facet Lee, Yoonjin
author_sort Lee, Yoonjin
title Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
title_short Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
title_full Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
title_fullStr Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
title_full_unstemmed Impacts of Assimilating Vertical Velocity, Latent Heating, or Hydrometeor Water Contents Retrieved from a Single Reflectivity Data Set
title_sort impacts of assimilating vertical velocity, latent heating, or hydrometeor water contents retrieved from a single reflectivity data set
publisher Colorado State University
publishDate 2017
url http://pqdtopen.proquest.com/#viewpdf?dispub=10259235
work_keys_str_mv AT leeyoonjin impactsofassimilatingverticalvelocitylatentheatingorhydrometeorwatercontentsretrievedfromasinglereflectivitydataset
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