Supercomputer Simulations Reveal New Insight on Sea Fog Development

January 15, 2019

Jan. 15, 2019 — A recently published study by an international team of researchers has shed new light on how and why a particular type of sea fog forms, using detailed supercomputer simulations to provide more accurate predictions of its occurrence and patterns to help reduce the number of maritime mishaps.

This image near Qingdao, from the CALIPSO (Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations) satellite, shows the vertical cross-section of backscattering coefficients (indication of water droplets, i.e., sea fog) along the blue line AB. Courtesy of the Center for Analysis and Prediction of Storms (CAPS), University of Oklahoma.

The study, published in the January 1, 2019 issue of Atmospheric Research, focused on a significant sea fog event that stretched approximately 400 miles across the Yellow Sea and its surrounding land. Images captured by the Moderate Resolution Imaging Spectroradiometer (MODIS) on the Aqua satellite allowed the research team to better explain the sensitivity of sea fog simulations to vertical resolution. Researchers used the Comet supercomputer at the San Diego Supercomputer Center (SDSC), an Organized Research Unit of UC San Diego, to develop detailed simulations.

NASA data affirms that spring fogs can occur for 50-80 days per year across the Yellow Sea. The fogs occur within the marine atmospheric boundary layer and are responsible for as many as half of the shipping accidents at the Qingdao port, according to the Chinese government. The primary type of fog covering the Yellow Sea is called advection fog, which usually forms when warm, moist air moves into areas with a cold surface.

While many previous studies focus on the effects of vertical resolution to better predict atmospheric events such as precipitation and hurricanes, this study aimed to achieve the best prediction of sea fogs using refined vertical resolution, according to the researchers.

“Inaccurate predictions of sea fog over the Yellow Sea pose a severe risk or damage to many human activities such as aviation, shipping, and the general business economy,” explained Xiao-Ming Hu, principal investigator for the study who is with the Center for Analysis and Prediction of Storms (CAPS) at University of Oklahoma. “Accurate predictions of sea fogs involve a few parameterizations for the atmospheric boundary layer and microphysics processes, all of which requires appropriate resolutions. Finding the optimal configurations among resolutions and parameterization schemes is not only beneficial for predicting sea fogs as demonstrated in this study, but also helps researchers to better understand and predict other meteorological events.”

The study was conducted by Ocean University of China researchers Yue Yang and Shanhong Gao, and University of Oklahoma researchers Hu and Yongming Wang. The team used the Weather Research and Forecasting (WRF) model to simulate the selected sea fog and examined sensitivity of the WRF simulations to different vertical resolutions in order to provide insight regarding how the fogs form, as well as developing optimal model configurations to better predict sea fogs.

The researchers have been using SDSC’s Comet supercomputer since 2016, with allocations obtained via the National Science Foundation’s XSEDE (eXtreme Science and Engineering Discovery Environment) program. To date, some 2 million core hours have been used.

“We have been getting used to the system, and all of our modeling systems have now been installed on Comet,” said Hu. “The SDSC technical support has been prompt and very helpful, while the storage on Cometenabled us to save useful model outputs for analysis until the research was eventually published, which was critical. Otherwise we would have had to purchase external storage. All of this really saved our team a great deal of time and money.”

The optimal model configurations by this study were adopted by the sea fog forecasting system from the Ocean University of China about one year ago, based on draft manuscripts of this research study.  The Ocean University of China and University of Oklahoma researchers continue their collaboration to improve meteorological forecasting models in order to reduce the damage of meteorological disasters around the world, with support from supercomputers such as Comet.

“These studies have large-scale computing requirements that can only be satisfied by large supercomputers such as Comet,” said Hu. “Without access to high-performance computing, CAPS would not be nearly as productive.”

This work was supported by the National Key Research and Development Program of China (2017YFC1404200, 2017YFC1404100) and the National Natural Science Foundation of China (41276009). The first author received support from China Scholarship Council and the second author was partially supported by the NOAA VORTEX-SE Program through grant NA17OAR4590188 and U.S.-based National Science Foundation (NSF) XSEDE allocation grant TG-ATM160014.

About SDSC

As an Organized Research Unit of UC San Diego, SDSC is considered a leader in data-intensive computing and cyberinfrastructure, providing resources, services, and expertise to the national research community, including industry and academia. Cyberinfrastructure refers to an accessible, integrated network of computer-based resources and expertise, focused on accelerating scientific inquiry and discovery. SDSC supports hundreds of multidisciplinary programs spanning a wide variety of domains, from earth sciences and biology to astrophysics, bioinformatics, and health IT. SDSC’s petascale Comet supercomputer is a key resource within the National Science Foundation’s XSEDE (eXtreme Science and Engineering Discovery Environment) program.


Source: Kimberly Mann Bruch, SDSC

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