The group of Fluid Mechanics at Malaga University (Malaga, Spain) is looking for an enthusiastic research student with a strong interest in fluid dynamics, electro-atomization and aerosol technology. Successful candidates will join a small but very active multidisciplinary team, working in several electrospray (ES)-related problems. Te research will be both experimental and numerical, focused in some aspects of ES. The main topic that will be considered during the research include, but are not limited, to the description of an electrospray of evaporating droplets, and its interaction with other aerosol particles. Applicants will enroll in the Mecatronica PhD program at Malaga University. CANDIDATES: Successful applicants must hold a Master degree in Engineering (at least equivalent to a 5 years course in Engineering) at the time of the application, in the areas of Mechanical, Industrial or Aeronautical Engineering (note that other backgrounds might not be considered). Preference will be given to candidates able to demonstrate the following desired skills: - Matlab / LabVIEW - Mechanical engineering design tools such as Inventor, Creo, etc. - Simulation tools such as COMSOL, OpenFOAM, ANSYS,… DETAILS AND APPLICATION PROCEDURE: The call for applications are opened from today, November 19, until November 29. https://urldefense.com/v3/__https://www.uma.es/servicio-de-investigacion/info/149748/convocatoria-contratos-predoctorales-fpi-2024/__;!!D9dNQwwGXtA!WQA6fpgRSxVTMtLaA52JXO0DpWczKHGNX4HV6IafafCmavqj3mHmmyNjRD4jEJg0LdPUCkbIaqoRtQZe7WQX5MmuKPyI$  NOTE: you may select the language by clicking the “A” icon on the right (see figure at the end) Interested candidates should send to Prof. Ignacio G. Loscertales ([log in para visualizar] <mailto:[log in para visualizar]>) ASAP - Motivation letter - Full CV - Academic transcripts of Undergraduate and Master degrees - Name and contact details (email and phone) of two academic referees Project abstract The present proposal fits in the non-oriented research, since a large part of it is devoted to the investigation of fundamental aspects of several processes related to electrosprays and electrospray technology. As described in section 2, and in more detail in section 3.2, a large part of the proposed research aims at describing the structure of an electrospray consisting of evaporating droplets, some of them suffering series of Coulomb fissions, where ions are sometimes field-emitted from the droplet surface, and where charged nano-residues are formed after complete solvent evaporation from the droplets. Such a complex series of inter- related processes need to be understood from a fundamental point of view to be afterwards useful as a particulate filter (continuation of our recent work), but also as a guide to optimize electrospray-mass spectrometry systems, a world-wide adopted analytical tool. Finally, the last part of the proposal deals with the still unsolved problem related to the foundations of the electrospray technology. In this case we shall look at the interaction between the electrospray plume and the geometry of the Taylor cone emitting such electrospray. This relationship might shine light on aspects such that the stability island in the (flow rate, voltage) plane for electrosprays in the cone-jet mode. Prof. Ignacio G. Loscertales D2.11.2D Dept. Ingeniería Mecánica, Térmica y de Fluidos Escuela de Ingenierías Universidad de Málaga, Campus de Teatinos Dr. Ortiz Ramos, s/n 29071Málaga, Spain Phone: +34-95 195 2425 Fax: +34-95 195 2605 https://urldefense.com/v3/__https://www.uma.es__;!!D9dNQwwGXtA!WQA6fpgRSxVTMtLaA52JXO0DpWczKHGNX4HV6IafafCmavqj3mHmmyNjRD4jEJg0LdPUCkbIaqoRtQZe7WQX5Hv2sG3c$