{"id":2653,"date":"2023-05-02T10:00:23","date_gmt":"2023-05-02T10:00:23","guid":{"rendered":"https:\/\/fellowshipbard.com\/?p=2653"},"modified":"2023-04-30T17:18:47","modified_gmt":"2023-04-30T17:18:47","slug":"28-fully-funded-phd-programs-at-ghent-university","status":"publish","type":"post","link":"https:\/\/fellowshipbard.com\/28-fully-funded-phd-programs-at-ghent-university\/","title":{"rendered":"28 Fully Funded PhD Programs at Ghent University, Ghent, Belgium"},"content":{"rendered":"
Are you holding Master\u2019s degree and looking for fully funded PhD positions? Ghent University, Ghent, Belgium invites online application for multiple funded PhD Programs \/ fully funded PhD positions in various research areas.<\/span><\/p>\n Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University\u2019s Online Application Portal.\u00a0<\/span><\/p>\n We are currently looking for a PhD researcher in the field of modeling the auditory system. In this interdisciplinary project, you will develop the signal processing modules of an auditory model based on EEG, physiology, speech and psychoacoustic data that was previously conducted in a large group of test subjects with hearing impairment or tinnitus and in laboratory animals. The techniques you will use are non-linear signal processing, data science and machine learning. After building the auditory model, you will use it for hearing diagnostic purposes and to investigate personalized signal processing.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n Context \u2013 High-performant and power-dense electromechanical systems (e.g. weaving looms, compressors, gearboxes, drivetrains, \u2026) need oil lubrication to reduce friction and resulting wear in rolling element bearings to efficiently dissipate heat from the contact points. On the one hand, these systems contain multiple oil-lubricated bearings of various types, which typically operate under different and\/or varying conditions (load, speed, temperature). Ideally, the lubrication properties have been adapted to these operating conditions. However, in practice each individual bearing operates under suboptimal lubrication conditions, leading globally to an increased Total Cost of Ownership (TCO) due to reduced energy efficiency, reduced component lifetime and increased maintenance and downtime.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n <\/p>\n Follow FellowshipBard for daily updates! <\/span><\/strong><\/span><\/p>\n Facebook<\/span><\/strong><\/a><\/span><\/p>\n Twitter<\/span><\/strong><\/a><\/span><\/p>\n Linkedin<\/span><\/strong><\/a><\/span><\/p>\n Leading Edge Erosion (LEE) is a severe erosive wear mechanism which involves progressive material removal from the blade-tip leading edges, due to (sub-)surface fatigue. The repeated high-speed impact of water droplets induces severe pressure shock-waves in the blade material leading to initiation, propagation and coalescence of cracks and eventually material loss, pit formation, delamination and disintegration of the structural integrity. Although wind turbines are designed and built for an operational lifespan of 25 years at maximum energy capacity, the current generation of turbines require often extensive maintenance after 5-10 years due to severe LEE and reduced energy production. LEE in modern turbines can even be triggered in less than 2 years in service (due to the larger blades and speeds), especially in offshore or coastal locations with high-rated wind conditions and precipitation, e.g. the North Sea.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n <\/p>\n We are looking for enthusiastic candidates to perform research on the development of computational models of ultrasound-neuron coupling mechanisms (mechanosensitive ion channels, radiation force induced membrane bending, intramembrane cavitation, etc.). You will collaborate with other PhD students and postdoctoral researchers working on the project. Candidates with a master\u2019s degree in biomedical engineering, electrical engineering and physics engineering qualify for this research job. The ideal candidate is fluent in English (speech and writing) and has experience with programming (e.g., Python). Prior knowledge of neuroscience is a good plus, but not required.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n The activities of the Ph.D. position are embedded in this stimulating environment with a focus on data-efficient machine learning (or surrogate modeling) techniques to solve complex and challenging engineering problems with use cases from various engineering disciplines such as electrical and mechanical engineering. In particular, the goal of the Ph.D. research is to design tools and techniques to improve key parts of the engineering design pipeline, aiding designers in several computer-aided design (CAD; design and analysis of computer experiments) activities such as uncertainty quantification, calibration, sensitivity analysis, design space exploration, and optimization, etc. Machine learning algorithms such as Gaussian Processes and Bayesian optimization will be used to create a modern design flow, e.g., for the efficient design of electromagnetic and electronics circuits. <\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n <\/p>\n We imagine a future world of connected autonomously driving vehicles, AR\/VR devices, smart clothing, cooperative robots in industry, or drones delivering packages at your doorstep. These applications are expected to be possible from novel techniques in wireless networking resulting into an increased spectrum, but also from the deep integration of the network with all types of computing power in the cloud and at the edge of the network.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n As PhD Candidate in legal history, you will analyse the historical use of emergency powers and emergency legislation during the 20th century and early 21st century in Europe. The project EMERGE hypothesizes that the enactment of emergency legislation determines substantial and lasting changes to fundamental rights, the principle of the rule of law as well as the commitment to liberal values of equality before the law and universalism of rights. This hypothesis will be tested against five key moments in the constitutional and legal history of five European jurisdictions during the last century (c.1914-c.2020). <\/span><\/p>\n The PhD Candidates will analyse the historical context, the law and the practice of emergency in five countries (Belgium, France, Germany, Romania, and the United Kingdom). The first PhD position is concerned with Belgium, the second PhD position with France, the third one with Germany (including the GDR), the fourth one with Romania and the fifth one with the United Kingdom (with a focus of Northern Ireland).<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n <\/p>\n The aim of this 4-year project is to develop and optimize a reactor that utilizes magnetic fields for intensified CO2 capture and conversion. By employing time and spatially varying magnetic fields, materials with different functionalities and magnetic properties, are driven towards a specific spatial organization in the reactor, leading to an intensified CO2 conversion. This type of reactor is also referred to as a magnetic field assisted fluidized bed reactor (MAFB). The project will investigate the optimal magnetic fields and coil design required to achieve this behavior through a combination of experiments and computational modeling. You will work closely with fellow researchers who will model the reactor\u2019s hydrodynamics, with inclusion of reaction kinetics. Moreover, they will obtain data by testing the experimental reactor in-situ to support the modelling results for the hydrodynamic and magnetic model.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n <\/p>\n The Lung Research Lab of the Department of Respiratory Medicine at Ghent University Hospital is looking for a highly motivated researcher to join the team. More specifically, we are looking for a PhD student who will be involved in translational research into the pathogenesis of Chronic Obstructive Pulmonary Disease (COPD). Worldwide more than 300 million people suffer from COPD and more than 3 million people die from COPD each year, making it the third leading cause of death. Disturbances in pulmonary cell death pathways (including apoptosis, necroptosis and ferroptosis), as well as impaired clearance of dead and dying cells (also called efferocytosis), contribute to the chronic inflammation and tissue destruction in patients with COPD. <\/span><\/p>\n The aims of this FWO funded research project are to characterize the pathogenic contribution of different modes of regulated cell death and to elucidate the defects in the different phases of efferocytosis in both experimental and human COPD. We offer the opportunity to work in a dynamic and multidisciplinary academic research environment. As this project is a collaboration with the University of Technology in Sydney, Australia, a research stay in Australia is possible and encouraged.<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n In this project, the student will have the opportunity to contribute to developing the ALARO regional climate model, particularly regarding its tropical precipitation performance. The ALARO model is one of the canonical configurations of the ALADIN system, embedded in the ACCORD consortium, which brings together 26 National Meteorological Services. It is specifically designed to target the convective grey zone (1 \u2013 10 km grid spacing) and is used for operational numerical weather prediction and regional climate modelling. To evaluate the performance of ALARO, the student will make extensive use of the U.S. Department of Energy (DoE) Atmospheric Radiation Measurement (ARM) User Facility observations in the Amazon (GO Amazon), West Africa (AMMA) and Australia (Darwin, TWP).<\/span><\/p>\n Apply now<\/strong><\/span><\/a><\/p>\n The envisioned PhD focuses on accurate and reliable 3D Thermo-Elastohydrodynamic lubrication modelling, involving precise constitutive modelling of relevant thermomechanical and electrical properties, for rolling contacts. It builds upon existing CFD-FSI models constructed in the open-source software OpenFOAM. The existing models need to be further developed by implementing electrostatic\/electrodynamic equations. The model will be used to analyse the effects of electrical currents and discharges on the lubricant film and vice versa, as well as to determine a metric for the severity of the initial discharge damage.<\/span><\/p>\n1. Fully Funded PhD Position in Hearing Technology<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> May 01, 2023<\/span><\/span><\/h3>\n
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2. <\/strong><\/span>Fully Funded PhD Position in Mechanical Engineering<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> May 15, 2023<\/span><\/span><\/h3>\n
3. <\/strong><\/span>Fully Funded PhD Position in Computational Materials Modelling<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> May 15, 2023<\/span><\/span><\/h3>\n
4. <\/strong><\/span>Fully Funded PhD Position in biomedical engineering<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Jun 30, 2023 <\/span><\/span><\/h3>\n
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5. <\/strong><\/span>Fully Funded PhD Position in Computer Science<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
\n<\/span><\/p>\nApplication Deadline:<\/strong> Jun 30, 2023<\/span><\/span><\/h3>\n
6. <\/strong><\/span>Fully Funded PhD Position in Computer Science<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Aug 31, 2023<\/span><\/span><\/h3>\n
Looking For More Funded PhD Programs? Click Here<\/span><\/a><\/span><\/strong><\/span><\/h3>\n
7. <\/strong><\/span>Fully Funded PhD Position in Law<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Aug 31, 2023<\/span><\/span><\/h3>\n
8. <\/strong><\/span>Fully Funded PhD Position in engineering<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Jun 01, 2023<\/span><\/span><\/h3>\n
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9. <\/strong><\/span>Fully Funded PhD Position in medical sciences<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Jun 30, 2023<\/span><\/span><\/h3>\n
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10. <\/strong><\/span>Fully Funded PhD Position in Geography<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> Jun 01, 2023<\/span><\/span><\/h3>\n
Looking For Funded Scholarships Programs? Click Here<\/span><\/span><\/strong><\/span><\/a><\/h3>\n
11. <\/strong><\/span>Fully Funded PhD Position in Mechanical Engineering<\/strong><\/span><\/h1>\n
Summary of PhD Program:<\/strong><\/span><\/h2>\n
Application Deadline:<\/strong> May 15, 2023<\/span><\/span><\/h3>\n