Clouds Inside-Out

Acronym and Title of the research project 

COMPLETE - Cloud-MicroPhysics-Turbulence-Telemetry: An inter-multidisciplinary training network for enhancing the understanding and modeling of atmospheric clouds

Scientific area  

Environmental Sciences, Cloud MicroPhysics, Fluid Dynamics

Abstract

Understanding cloud behaviour is fundamental for weather prediction and climate modelling which justifies the need for more explorative observations. The COMPLETE project will contribute to closing the knowledge gap and will allow young researchers to develop their scientific competences specific to this research field as well as key professional skills applicable to both the academic and industrial environments.

Description of the research project  

Clouds are the largest source of uncertainty in weather prediction and climate modelling. This is rooted in the fact that clouds depend on physical and chemical processes over a huge range of scales, from the nucleation of droplet at the nanoscales, to the collisions of micron-sized droplets, to airflow dynamics on the scales of thousands of meters.

The mathematical treatment of multi-scale phenomena is very complex. Any improvement rests on the availability of precise experimental data sets.

The research objective of COMPLETE is to establish connections between events occurring on various scales. Additionally, the project aims to develop an international and multidisciplinary training network that will prepare researchers with both scientific and industrially-oriented skills to advance our understanding in these multi-scale complex natural phenomena.  The training programme will combine the scientific investigation of specific aspects of cloud physics and related turbulent dynamics with training in key professional skills. This includes an exceptional experimental programme with in-field and laboratory experiments, numerical simulations, the design and development of advanced fast temperature probes, velocity micro-electronic and mechanical devices and innovative atmospheric mini green expandable radio-probes; all aimed at the production of new datasets required to reduce the fragmentation of results and knowledge in this field.

Impact on researcher’s career and on society 

Early Stage Researchers recruited during the project will receive a training allowing them to develop many professional competences useful to work both in academic research and in industry, to design and produce technologically innovative monitoring systems or to evaluate environmental risks.

Concerning the advancement of research, COMPLETE creates a large network of research groups at the international level, allowing cross-fertilization among different research communities (e.g. fundamental and applied physics, climate modelling, complex systems, fluid dynamics, telecommunication, sensor engineering), for the benefit of European Industry and the European Research Area.

Working group @Polito 

Daniela Tordella, DISAT, Department of Applied Science and Technology, Coordinator of the COMPLETE project

Michele Iovieno, DIMEAS, Department of Mechanical and Aerospace Engineering

Flavio Canavero, DET, Department of Electronics and Telecommunication, Director of the Politecnico di Torino Doctoral School

Anja Visočnik, DISAT, Project management

ESR (Early Stage Researchers) at Politecnico di Torino

Taraprasad Bhowmick, India

Tessa Chiara Basso, Italy-Australia

Mina Golshan Koviji, Iran

 

Beneficiaries, Early Stage Researchers and their country of origin

Imperial College London, United Kingdom (Marteen van Reeuwijk, Christos Vassilicos). ESR: Tai Wada, Giappone - Vishnu Nair, India

Max Planck Institute for Dynamics and Self-Organization- MPIDS, Germany (Eberhard Bodenschatz, Jan Molacek). ESR: Guus Bertens, Olanda - Johannes Guettler, Germania -Antonio Ibanez Landeta, Cile

Tel Aviv University, Israele (Alex Liberzon). ESR. Marco Boetti, Italy

University of Warsaw, Polonia (Szymon Malinowski, Marta Waclawczyk). ESR: Moein Mohammadi, Iran - Emmanuel Akinlabi, Niger

Laboratoire de Météorologie Dynamique, Francia (Fabio D’Andrea, Jean-Philippe Duvel). ESR: Sara Shamekh, Iran

EnviSens Technologies, Italia (Giovanni Perona, Marco Allegretti, Silvano Bertoldo). ESR: Miryam Elizabeth Paredes Quintanilla, Ecuador

Sitael, Italia (Matteo Angarano, Patrizia Sforza, Franco Bigongiari). ESR: Tung Bui Duc, Vietnam

Partner organizations 

Max Planck Institut für Meteorologie, Germania

Istituto di Scienze dell'Atmosfera e del Clima CNR-ISAC, Italy

Ufs - Environmental Research Station Schneefernerhaus, Germany

Regione Piemonte, Italia

Bavarian Research Alliance, Germania

I3P - Incubatore Imprese Innovative del Politecnico di Torino, Italy

Ramot-tel Aviv University, Israel

MTF Sp.z.o.o -Modern Technology and Filtration, Poland

COMPLETE project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No . 675675.

  • Budget: 3818522 euro
  • Start date: 1/06/2016
  • End date: 31/05/2020