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Shravan Kumar Muppa
Researcher at University of Hohenheim
Publications - 15
Citations - 722
Shravan Kumar Muppa is an academic researcher from University of Hohenheim. The author has contributed to research in topics: Water vapor & Convective Boundary Layer. The author has an hindex of 10, co-authored 15 publications receiving 559 citations. Previous affiliations of Shravan Kumar Muppa include National Atmospheric Research Laboratory & University of Bayreuth.
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Journal ArticleDOI
Large-eddy simulations over Germany using ICON: a comprehensive evaluation
Rieke Heinze,Rieke Heinze,Anurag Dipankar,Cintia Carbajal Henken,Christopher Moseley,Odran Sourdeval,Silke Trömel,Xinxin Xie,Panos Adamidis,Felix Ament,Holger Baars,Christian Barthlott,Andreas Behrendt,Ulrich Blahak,Sebastian Bley,Slavko Brdar,Matthias Brueck,Matthias Brueck,Susanne Crewell,Hartwig Deneke,Paolo Di Girolamo,Raquel Evaristo,Jürgen Fischer,Christopher W. Frank,Petra Friederichs,Tobias Göcke,Ksenia Gorges,L. B. Hande,Moritz Hanke,Akio Hansen,Hans-Christian Hege,Corinna Hoose,Thomas Jahns,Norbert Kalthoff,Daniel Klocke,Stefan Kneifel,Peter Knippertz,Alexander Kuhn,Thriza van Laar,Andreas Macke,Vera Maurer,Vera Maurer,Bernhard Mayer,Catrin I. Meyer,Shravan Kumar Muppa,Roeland A. J. Neggers,Emiliano Orlandi,Florian Pantillon,Bernhard Pospichal,Niklas Röber,Leonhard Scheck,Axel Seifert,Patric Seifert,Fabian Senf,Pavan Kumar Siligam,Clemens Simmer,Sandra Steinke,Bjorn Stevens,Kathrin Wapler,Michael Weniger,Volker Wulfmeyer,Günther Zängl,Dan Zhang,Johannes Quaas +63 more
TL;DR: In this article, large-eddy simulations with the ICOsahedral non-hydrostatic atmosphere model (ICON) covering Germany are evaluated for four days in spring 2013 using observational data from various sources.
Journal ArticleDOI
A New Research Approach for Observing and Characterizing Land-Atmosphere Feedback
Volker Wulfmeyer,David D. Turner,Bruce Baker,Robert M. Banta,Andreas Behrendt,Timothy A. Bonin,W. A. Brewer,Michael S. Buban,Michael S. Buban,Aditya Choukulkar,Edward J. Dumas,Edward J. Dumas,R. M. Hardesty,Thijs Heus,Joachim Ingwersen,Diego Lange,Temple R. Lee,Temple R. Lee,Simon Metzendorf,Shravan Kumar Muppa,Tilden P. Meyers,Rob K. Newsom,M. K. Osman,Siegfried Raasch,Joseph A. Santanello,Christoph J. Senff,Florian Späth,Timothy J. Wagner,Tammy M. Weckwerth +28 more
TL;DR: In this paper, a synergy of ground-based, scanning active remote sensing systems for 2D to 3D measurements of wind, temperature, and water vapor from the surface to the lower troposphere is developed.
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The HD(CP)2 Observational Prototype Experiment (HOPE) - An overview
Andreas Macke,Patric Seifert,Holger Baars,Christian Barthlott,Christoph Beekmans,Andreas Behrendt,Birger Bohn,Matthias Brueck,Johannes Bühl,Susanne Crewell,Thomas Damian,Hartwig Deneke,Sebastian Düsing,Andreas Foth,Paolo Di Girolamo,Eva Hammann,Rieke Heinze,Rieke Heinze,A. Hirsikko,A. Hirsikko,John Kalisch,Norbert Kalthoff,Stefan Kinne,Martin Kohler,Ulrich Löhnert,B. L. Madhavan,B. L. Madhavan,Vera Maurer,Shravan Kumar Muppa,Jan H. Schween,Ilya Serikov,Holger Siebert,Clemens Simmer,Florian Späth,Sandra Steinke,K. Träumner,Silke Trömel,Birgit Wehner,Andreas Wieser,Volker Wulfmeyer,Xinxin Xie +40 more
TL;DR: The HD(CP)2 Observational Prototype Experiment (HOPE) was performed as a major 2-month field experiment in Julich, Germany in April and May 2013, followed by a smaller campaign in Melpitz, Germany, in September 2013.
Journal ArticleDOI
Profiles of second- to fourth-order moments of turbulent temperature fluctuations in the convective boundary layer: first measurements with rotational Raman lidar
TL;DR: In this article, the rotational Raman lidar (RRL) of the University of Hohenheim (UHOH) measured atmospheric temperature profiles with high resolution (10 s, 109 m).
Journal ArticleDOI
Determination of Convective Boundary Layer Entrainment Fluxes, Dissipation Rates, and the Molecular Destruction of Variances: Theoretical Description and a Strategy for Its Confirmation with a Novel Lidar System Synergy
Volker Wulfmeyer,Shravan Kumar Muppa,Andreas Behrendt,Eva Hammann,Florian Späth,Zbigniew Sorbjan,David D. Turner,R. Michael Hardesty +7 more
TL;DR: Theoretical relationships between the integral scales, gradients, and higher-order moments of atmospheric variables, fluxes, and dissipation rates are developed mainly focusing on the entrainment layer (EL) at the top of the convective boundary layer as mentioned in this paper.