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Stefano Serafin

Stefano Serafin

Universität Wien

H-index: 17

Europe-Austria

About Stefano Serafin

Stefano Serafin, With an exceptional h-index of 17 and a recent h-index of 14 (since 2020), a distinguished researcher at Universität Wien, specializes in the field of mountain meteorology, boundary-layer meteorology, mesoscale meteorology, numerical weather prediction.

His recent articles reflect a diverse array of research interests and contributions to the field:

Boundary‐layer plumes over mountainous terrain in idealized large‐eddy simulations

Adverse impact of terrain steepness on thermally driven initiation of orographic convection

Climate changes and their elevational patterns in the mountains of the world

Numerically consistent budgets of potential temperature, momentum, and moisture in Cartesian coordinates: application to the WRF model

A pan-Alpine climatology of lightning and convective initiation

Probability forecasts of ice accretion on wind turbines derived from multiphysics and neighbourhood ensembles

A Collaborative Effort to Better Understand, Measure, and Model Atmospheric Exchange Processes over Mountains

Skill and potential economic value of forecasts of ice accretion on wind turbines

Stefano Serafin Information

University

Position

Department of Meteorology and Geophysics

Citations(all)

1121

Citations(since 2020)

826

Cited By

555

hIndex(all)

17

hIndex(since 2020)

14

i10Index(all)

24

i10Index(since 2020)

19

Email

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University Profile Page

Universität Wien

Google Scholar

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Stefano Serafin Skills & Research Interests

mountain meteorology

boundary-layer meteorology

mesoscale meteorology

numerical weather prediction

Top articles of Stefano Serafin

Title

Journal

Author(s)

Publication Date

Boundary‐layer plumes over mountainous terrain in idealized large‐eddy simulations

Quarterly Journal of the Royal Meteorological Society

Jan Weinkaemmerer

Matthias Göbel

Stefano Serafin

Ivan Bašták Ďurán

Jürg Schmidli

2023/10

Adverse impact of terrain steepness on thermally driven initiation of orographic convection

Weather and Climate Dynamics

Matthias Göbel

Stefano Serafin

Mathias W Rotach

2023/8/31

Climate changes and their elevational patterns in the mountains of the world

NC Pepin

E Arnone

A Gobiet

K Haslinger

S Kotlarski

...

2022/3

Numerically consistent budgets of potential temperature, momentum, and moisture in Cartesian coordinates: application to the WRF model

Geoscientific Model Development

Matthias Göbel

Stefano Serafin

Mathias W Rotach

2022/1/26

A pan-Alpine climatology of lightning and convective initiation

Monthly Weather Review

Agostino Manzato

Stefano Serafin

Mario Marcello Miglietta

Daniel Kirshbaum

Wolfgang Schulz

2022/9

Probability forecasts of ice accretion on wind turbines derived from multiphysics and neighbourhood ensembles

Quarterly Journal of the Royal Meteorological Society

Lukas Strauss

Stefano Serafin

Manfred Dorninger

2022/7

A Collaborative Effort to Better Understand, Measure, and Model Atmospheric Exchange Processes over Mountains

Bulletin of the American Meteorological Society

Mathias W Rotach

Stefano Serafin

Helen C Ward

Marco Arpagaus

Ioana Colfescu

...

2022/5

Skill and potential economic value of forecasts of ice accretion on wind turbines

Journal of Applied Meteorology and Climatology

Lukas Strauss

Stefano Serafin

Manfred Dorninger

2020/11/10

Multi-scale transport and exchange processes in the atmosphere over mountains: Programme and experiment

Stefano Serafin

Mathias W Rotach

Marco Arpagaus

Ioana Colfescu

Joan Cuxart

...

2020

See List of Professors in Stefano Serafin University(Universität Wien)