Search

Your search keyword '"atmospheric model"' showing total 11 results
Start Over Descriptor "atmospheric model" Database Supplemental Index
11 results on '"atmospheric model"'

1. On the Wind Resource Assessment along the Western Coast of Thailand.

Author

Niyomtham, Lattawan, Lertsathittanakorn, Charoenporn, Waewsak, Jompob, and Gagnon, Yves

Abstract

This paper presents a microscale wind resource mapping along the western coast of Thailand, i.e., Ranong, Phangnga, Phuket, Krabi, Trang and Satun provinces. A coupled mesoscale atmospheric model and a microscale wind flow model are used along with the long-term Modern-Era Reanalysis for Research and Applications (MERRA) climatic database, a high resolution topography and the Land Cover Land Use (LCLU) digital data. The predicted wind speeds at height of 40 m and 80 m above ground level are validated. The observed wind speeds, obtained from met masts, are compared to the wind speeds predicted by the Weather Research and Forecasting (WRF) atmospheric modeling. While the validation shows that the measured wind speeds are higher than the predicted mean wind speeds, with an average percent mean relative error of 17%, the results nonetheless show that the wind map can be used to represent the wind resource along the western coast of Thailand. The potential sites for wind power development include Launnuea, Laun, Kamphuan, and Suksamran districts in Ranong province; Thugkhangok, Mueang, Phangnga districts in Phangnga province; Nakhao and Khaophanom districts in Krabi province; as well as Wangprachan and Khuandon districts in Satun province. It is found that the annual energy production that could be generated by a 10 MW wind power plant is approximately 23 GWh/year, 48 GWh/year, 51 GWh/year, 26 GWh/year and 32 GWh/year, respectively, for these provinces. The capacity factors of the wind power plants are above 25% for all sites. Finally, the economic assessment shows that Thailand’s Very Small Power Producer (VSPP) wind power plants at Kamphuan and Thungkhangok districts are viable. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

2. The Atmosphere around CLIMATE MODELS.

Author

Linehan, Dan

Subjects
ATMOSPHERIC models, NATIONAL security, SUPERCOMPUTERS
Abstract

The founding of the Laboratory led to a long, successful history of atmospheric science and climate modeling. The Laboratory's continued emphasis on computation prowess has allowed researchers to make advances vital to national security. Aside from the complex computing requirements needed for nuclear weapons development, computerization has also been ideal for gaining a much better understanding of the atmosphere. In the 1960s, former Manhattan Project researcher Cecil "Chuck" Leith created the world's first global atmospheric model, which was also the first to be animated. Through the 1970s and 1980s, Livermore ran studies using climate models. Also, atmospheric chemistry modeling helped to solve the hole in the ozone layer, while atmospheric release modeling helped to safeguard citizens from catastrophes such as Chernobyl's nuclear accident. In 1989, Livermore took the lead in the Program for Climate Model Diagnosis and Intercomparison (PCMDI), work that contributed to the 2007 Nobel Peace Prize. Livermore's continual advancements in supercomputers for weapons programs also enabled more complex and higher performing climate models. In 2014, the Department of Energy (DOE) launched the Energy Exascale Earth System Model (E3SM), which will operate on DOE's latest exascale computers. E3SM will have unprecedented resolution, globally to 15 kilometers and telescoped to 1 kilometer. Earth system modeling provides extraordinary insights into the complexities of how the world works. [ABSTRACT FROM AUTHOR]

Published
2017

Catalog

Books, media, physical & digital resources
See catalog results