Biao Zhao
Stipendiat vid Institutionen för geovetenskaper; Luft-, vatten- och landskapslära; Meteorologi
- E-post:
- biao.zhao@geo.uu.se
- Besöksadress:
- Geocentrum, Villavägen 16
752 36 Uppsala - Postadress:
- Villavägen 16
752 36 UPPSALA
- ORCID:
- 0000-0001-6114-1251
Mer information visas för dig som medarbetare om du loggar in.
Kort presentation
Jag är en oceanograf vars forskning fokuserar på effekterna av havsvågor på luft-havets rörelsemängd och värmeflöden, samt deras inflytande på extrema processer både i atmosfären och i haven.
Dessutom är jag skicklig på modellering. Under de senaste åren har jag ägnat mina ansträngningar åt att utveckla en atmosfär-hav-våg-kopplad modell, känd som FIO-AOW.
Nyckelord
- air-sea-wave interaction
- coupled model development
- numerical modeling
- offshore wind energy
- tropical cyclone
Biografi
Du kan klicka här för att lära dig mer om mig my personal page
Forskning
Mit nuvarande arbete vid Uppsala universitet kommer att fokusera på att förstå hur havsvågor påverkar den atmosfäriska gränsskiktet genom att använda en LES (Large Eddy Simulation) metod i en luft-våg-kopplad ram. Mitt mål är att slutligen bidra med nya insikter för prognoser av havsbaserad vindenergi
Publikationer
Urval av publikationer
- A Numerical Study of Tropical Cyclone and Ocean Responses to Air‐Sea Momentum Flux at High Winds (2024)
- The Effects of Ocean Surface Waves on Tropical Cyclone Intensity: Numerical Simulations Using a Regional Atmosphere‐Ocean‐Wave Coupled Model (2022)
- Sensitivity of typhoon modeling to surface waves and rainfall (2017)
- The effects of the non-breaking surface wave-induced vertical mixing on the forecast of tropical cyclone tracks (2014)
Senaste publikationer
- A Numerical Study of Tropical Cyclone and Ocean Responses to Air‐Sea Momentum Flux at High Winds (2024)
- Estimating sea spray volume flux with a laser gauge in a self-consistent system (2023)
- Tropical Cyclone Modeling With the Inclusion of Wave‐Coupled Processes: Sea Spray and Wave Turbulence (2023)
- CIOFC1.0: a common parallel input/output framework based on C-Coupler2.0 (2023)
- Variability of non-breaking surface-wave induced mixing and its effects on ocean thermodynamical structure in the northwest Pacific during Typhoon Lekima (2019) (2023)
Alla publikationer
Artiklar
- A Numerical Study of Tropical Cyclone and Ocean Responses to Air‐Sea Momentum Flux at High Winds (2024)
- Estimating sea spray volume flux with a laser gauge in a self-consistent system (2023)
- Tropical Cyclone Modeling With the Inclusion of Wave‐Coupled Processes: Sea Spray and Wave Turbulence (2023)
- CIOFC1.0: a common parallel input/output framework based on C-Coupler2.0 (2023)
- Variability of non-breaking surface-wave induced mixing and its effects on ocean thermodynamical structure in the northwest Pacific during Typhoon Lekima (2019) (2023)
- The Effects of Ocean Surface Waves on Tropical Cyclone Intensity: Numerical Simulations Using a Regional Atmosphere‐Ocean‐Wave Coupled Model (2022)
- Developing a common, flexible and efficient framework for weakly coupled ensemble data assimilation based on C-Coupler2.0 (2021)
- Modelling the annual cycle of landfast ice near Zhongshan Station, East Antarctica (2021)
- Observation and thermodynamic modeling of the influence of snow cover on landfast sea ice thickness in Prydz Bay, East Antarctica (2019)
- Deviation of Wind Stress From Wind Direction Under Low Wind Conditions (2018)
- Rapid intensification of Super Typhoon Haiyan: the important role of a warm-core ocean eddy (2018)
- Assimilating Copernicus SST Data into a Pan-Arctic Ice–Ocean Coupled Model with a Local SEIK Filter (2017)
- Sensitivity of typhoon modeling to surface waves and rainfall (2017)
- The effects of the non-breaking surface wave-induced vertical mixing on the forecast of tropical cyclone tracks (2014)