Федеральное государственное бюджетное учреждение науки Федеральный исследовательский центр
«Морской гидрофизический институт РАН» Научно-техническая библиотека
Результаты научной деятельности сотрудников ФГБУН ФИЦ МГИ
Study of SO2 Pollution in the Middle East Using MERRA-2, CAMS Data Assimilation Products, and High-Resolution WRF-Chem Simulations id статьи: 575
Тип публикации
статья в журнале
Язык
En
Журнал
Journal of Geophysical Research: Atmospheres
ISSN:2169-897X
eSSN:2169-8996
ISSN:2169-897X
eSSN:2169-8996
Год
2020
Выходные данные
том
125
выпуск
6
страницы
e2019JD031993
Авторы
Ukhov, A.1
Mostamandi, S.1
Krotkov, N.1
Flemming, J.1
da Silva, A.1
Li, C.2
Fioletov, V.1
McLinden, C.1
Alshehri, Y.M.1
Stenchikov, G.1
Абстракт
Oil recovery, power generation, water desalination, gas flaring, and traffic are the main contributors to SO2 emissions in the Middle East (ME). Satellite observations suggest that the traditional emission inventories do not account
for multiple SO2 emission sources in the ME. This study aims to evaluate the most frequently used SO2 emission data sets over the ME by comparing high-resolution regional model simulations and meteorology/chemistry assimilation
products, MERRA-2 and CAMS, with satellite and available ground-based air-quality observations. Here, we employ the WRF-Chem-3.7.1 regional meteorology-chemistry model and conduct simulations for the period 2015-2016 with 10 km grid
spacing using HTAP-2.2 emission data sets and the new OMI-HTAP data, which is based on the combination of the near-surface SO2 emissions taken from the HTAP-2.2 inventory with strong (>30 kt/year) SO2 point sources obtained from the
satellite Ozone Monitoring Instrument (OMI) observations. We find that conventional emission inventories (EDGAR-4.2, MACCity, and HTAP-2.2) have uncertainties in the location and magnitude of SO2 sources in the ME and significantly
underestimate SO2 emissions in the Arabian Gulf. The WRF- Chem, run in conjunction with the new OMI-HTAP emissions, improves comparisons between the satellite and ground-based SO2 observations. Our simulations show that SO2 surface
concentrations in Jeddah and Riyadh frequently exceed European air-quality limits. The ME generates about 10% of global anthropogenic SO2 emissions, on par with India. Therefore, the development of effective emission controls and
improvement of air-quality monitoring in the ME are urgently needed.
Ключевые слова
REGIONAL AIR-QUALITY, PLUME RISE, ATMOSPHERIC CHEMISTRY, EMISSION INVENTORIES, PARTICULATE MATTER, CARBON-MONOXIDE, DUST EMISSION, RED-SEA, OZONE, CLIMATE
Дата занесения
2020-06-02 21:16:17