Part time Doctorate Program in Engineering in Europe

Search Part time PhD Programs in Engineering in Europe 2017

Engineering

Earning a Ph.D. requires extended study and intense mental effort. A PhD is an academic study on which you concentrate for four to six years after obtaining your master’s degree, and that leads, if successful, to a PhD degree, the highest academic degree.

Upon advancements in applied sciences and engineering studies, you are awarded a doctorate in Engineering. The education in Engineering PhD results into innovation, research and excellent training in the field. You can enroll for the course in many of the UK and US universities as well as other applicable institutions worldwide.

Europe, one of the world's seven continents, is usually known as the westernmost peninsula of Eurasia. Second smallest continent, with 10,180,000 (km2), the area regroups 50 countries.

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PhD in Electrical and Electronics Engineering

Koc University - Istanbul Turkey
Campus September 2017 Turkey İstanbul

The Ph.D. program in Electrical Engineering aims to provide advanced education and a cutting edge research experience in electrical and electronics engineering, or in electrical and [+]

Ph.D. in Electrical and Electronics Engineering 

 

The Ph.D. program in Electrical Engineering aims to provide advanced education and a cutting edge research experience in electrical and electronics engineering, or in electrical and computer engineering crossing the boundary of the two disciplines. The focus of this program is excellence in research. Graduates of the program can join industry or continue to work in academia.

Research Areas

 

Communications  Computational Biology & Bioinformatics  Computational EM, Waves and Optics  Computer Graphics  Concurrent systems: Multi-threaded software, multi-core systems Cryptography, Security and Privacy  Design Technologies for Hardware, Soft-ware and Biological Systems Digital Signal Processing  Distributed & Parallel Computing  Image Processing & Computer Vision  Information Theory Integrated Circuits and Computer-Aided Design for VLSI Intelligent Systems & Machine Learning  Micro & Nano Systems (MEMS & NEMS) Multimedia & Networking Multimedia  Signal Processing Nanoscale and Molecular Communications  Natural Language Processing  Peer-to-Peer Systems and Network Protocols Secure Cloud Services  Software Engineering: Reliability, Analysis, Verification Speech Processing  Underwater Acoustic Communications  Wireless Communications Wireless Networks ... [-]

Doctoral Programme in Technical Sciences

University of Vaasa
Campus August 2017 Finland Vaasa

The Doctoral Programme in Technical Sciences covers all fields of research under the Faculty of Technology at the University of Vaasa. The doctoral programme produces Doctors of Science in Technology (D.Sc. (Tech), Doctors of Science in Business Administration (D.Sc. (Econ) and Doctors of Philosophy (PhD). The goal of the doctoral programme is to train high calibre experts capable of independent research work to serve industries, the economic life, the world of academia and other organisations. [+]

The Doctoral Programme in Technical Sciences covers all fields of research under the Faculty of Technology at the University of Vaasa. The doctoral programme produces Doctors of Science in Technology (D.Sc. (Tech), Doctors of Science in Business Administration (D.Sc. (Econ) and Doctors of Philosophy (PhD). The goal of the doctoral programme is to train high calibre experts capable of independent research work to serve industries, the economic life, the world of academia and other organisations. The doctoral programme conducts basic research and work-oriented applied research. Applying known methods and tools while developing new solutions for problems related to the field of technology and the economy are key elements of the programmes. The programme is multidisciplinary, covering every part of technology development from new technical innovations and solutions to product development. The programme also offers technological scientific knowledge, methodical and computational foundations for solving problems in the field of technological science and the mathematical and statistical models of economic phenomena. Studies in the doctoral programme consist of general studies, research area studies and studies supporting the research area. The most important part of the programme is the doctoral thesis, which is supported by further scientific studies, graduate school courses and seminars. The Doctoral Programme in Technical Sciences offers doctoral studies in the research fields of automation, energy, electricity, data and telecommunications engineering as well as industrial engineering, economic mathematics, statistics and mathematics. Research is primarily conducted in research groups. Projects are run by research groups in collaboration with industrial companies and various national and international universities and research institutes. The faculty is part of the national Doctoral Programme of Electrical Energy Engineering (DPEEE), Energy Efficiency and Systems (EES) and Information Technology (INFORTE.FI) as well as the Finnish Doctoral Programme in Stochastics and Statistics (FGSS) and the doctoral programme of the Graduate School of Logistics and Supply Chain Management (L&SCM). The Department of Industrial Management the Department of Electrical Engineering and Automation, the Department of Computer Science and the Department of Mathematics and Statistics are responsible for the content of the doctoral programme. The doctoral programme is headed by Professor Seppo Hassi. The primary target degree in the Doctoral Programme in Technical Sciences is a doctorate degree. It takes approximately four years to complete a doctorate degree with full-time studies. Doctor of Science in Technology [D.Sc. (Tech.)], Doctor of Science in Economics and Business Administration [D.Sc. (Econ. & Bus. Adm.)], and Doctor of Philosophy (Ph.D.) degrees are awarded in the Doctoral Programme in Technical Sciences. Postgraduate degrees in the field of technology can be completed in the following research fields (major subjects): Automation Technology, Energy Engineering, Electrical Engineering, Computer Science, Telecommunication Engineering, and Industrial Management. Postgraduate degrees in the field of business studies can be completed in the following research fields (major subjects): Computer Science, Industrial Management, Statistics, and Business Mathematics. The Doctor of Philosophy (Ph.D.) degree can be completed also in other major subjects offered by the faculty, if the student is eligible for doctoral studies in the major subject in question, and the faculty can provide competent and sufficient guidance for the studies. As the student is granted a study right for a Doctor of Philosophy degree, the structure to be followed in the degree is confirmed. The structure of a Ph.D. degree equals either the degree structure approved for the field of technology or for the field of business studies. [-]

PhD in Metal Forming

Siberian Federal University
Campus 4 years September 2017 Russia Krasnoyarsk

Doctoral students do research at the Laboratories of Metal Forming under the supervision of Professor Sergey B. Sidelnikov. [+]

Top Part time PhD Degrees in Engineering in Europe. Doctoral students do research at the Laboratories of Metal Forming under the supervision of Professor Sergey B. Sidelnikov. Their research focuses on developing new technologies and equipment to produce press-products from non-ferrous metals and alloys using combined processing methods. The scientists from the department received over fifty patents and certificates, they published over a hundred research papers and five books. Programme Leader Professor Sidelnikov’s research interests are about developing new technologies and equipment to produce press-products from non-ferrous metals and alloys using combined processing methods. Other research areas Developing science intensive technologies to produce precious metals and alloys (supervisor: Professor Nikolai Dovzhenko); Producing electro conductive materials with high wear resistance from powders, shavings from non-ferrous metals and alloys (supervisor: Dr Nikolai Zagirov); creating production lines to implement low-waste production technology of continuous extrusion (supervisor: Professor Yuriy Gorokhov). Entry requirements: Master’s degree in Metallurgy (transcript of records), an adequate level of English proficiency (certificate or other document) Apply to The Centre for International Education and Certified Testing for a certificate if you do not have it, the Russian language preparatory course is available. Accommodation: On-campus accommodation is available: single ensuite room 45 € per month, twin ensuite room 30 € per month. Practicalities: Airport transfer, invitation letter for a Russian study visa and an optional survival course of Russian as a foreign language are provided by the University. Curriculum BASIC COURSES Features of flow and change of strength properties of metals during plastic deformation 2 (72) Plastic deformation of metals in combined processes of casting and metal forming 3 (108) Contact friction and deformation conditions without destroying the metal in the process of metal forming 2 (72) ELECTIVES Processing of experimental data 3 (108) Methodology of PhD Thesis Preparation 3 (108) Academic English 3 (108) Basic English 3 (108) Russian (fee will apply) 3 (108) [-]

PhD in Electrical Engineering

University of Nicosia
Campus Part time 3 years September 2017 Cyprus Nicosia Greece Athens + 2 more

The doctorate degree is intended for students who have excelled during their undergraduate and/or graduate studies, have a strong motivation and enthusiasm toward technological research and innovation, and are inclined to remain in an academic or research environment working on emerging technologies and challenging engineering projects. [+]

Duration (years): 3 years Qualification Awarded: Doctor of Philosophy in Electrical Engineering Level of Qualification: 3rd Cycle (Doctorate Degree) Language of Instruction: The research output and the PhD Thesis must be written in English. Mode of Study: Full Time or Part Time Minimum Credits: 90 Minimum ECTS Credits: 180 Profile of the Programme: The doctorate degree is intended for students who have excelled during their undergraduate and/or graduate studies, have a strong motivation and enthusiasm toward technological research and innovation, and are inclined to remain in an academic or research environment working on emerging technologies and challenging engineering projects. The Department of Electrical & Computer Engineering of the University of Nicosia is dedicated to provide PhD candidates with in-depth academic knowledge and hands-on experience on advanced engineering topics such as telecommunications, signal and image processing, microwave engineering, antenna technology and wave propagation, power system analysis and design, renewable energy technologies, and computer engineering systems. The high-caliber academic staff of the department is dedicated to work closely with students to solve current engineering problems thereby producing new knowledge and results that can be published in reputable journals and conference proceedings. During their studies, students will have the opportunity to work on funded research projects, co-author papers with their advisors and other class-mates, present their contributions at international conferences, participate in the write-up of research proposals, prepare scientific reports, use simulation software, perform laboratory experiments, attend training schools, participate in workshops, etc. The three-year experience acquired during their PhD studies, working primarily on formulating and solving challenging engineering problems, will provide students with the necessary skills and qualifications to excel in their field of expertise and secure a research/academic position at a university or college, a government institute, or high-tech company. Career Prospects: Graduates with a PhD in Electrical Engineering will be equipped with the necessary skills in order to enable them to secure a research/academic position at a university or college, a government institute, or high-tech company. Learning Outcomes The PhD in Electrical Engineering, in line with the general philosophy behind the awarding of a doctoral degree, provides students with: highly specialized and advanced scientific knowledge in the field of Electrical Engineering; new methodologies and scientific approaches tailored toward innovative design, scientific progress, and technological revolution; research skills and analytical thinking to effectively tackle critical engineering problems; extensive training and professional practice in their primary area of research interest; competencies related to substantial authority, innovation, autonomy, scholarly and professional integrity. PhD in Electrical Engineering holders: have a deep understanding of their research topic(s) and demonstrate advanced skills and research capabilities associated with their field(s) of expertise; have the ability to conceive, design, implement and adapt a substantial process of research; have made a notable contribution through original research that extends the frontier of science through the development of a substantial body of work, some of which merits national or international refereed publication; are capable of critical thinking, analytical evaluation, and synthesis of new and complex engineering ideas; are able to promote technological, social or cultural advancement in a knowledge based society; are able to work as part of a team in an academic and research environment promoting new ideas and emerging technologies. [-]

PhD in Chemical Engineering

University of Chemistry and Technology, Prague
Campus Part time 4 years Open Enrollment Czech Republic Prague

This PhD program study deals with the education and development of highly qualified persons interested in many branches of chemical engineering. Students solve practical or theoretical problems in well-equipped laboratories and/or on powerful computers. [+]

Top Part time PhD Degrees in Engineering in Europe. Overview This PhD program study deals with the education and development of highly qualified persons interested in many branches of chemical engineering. Students solve practical or theoretical problems in well-equipped laboratories and/or on powerful computers. Currently we offer PhD projects in the following topics: functional micro and nanoparticles, chemical robotics, engineering of polymer and porous materials, energy storage, microfluidics, microreactors, microsensors and microfabrication, electrokinetics and electrochemical processes, process control and design, development of column unit operations, fundamentals of mass transfer, flotation and surface phenomena, nonlinear dynamics of chemical and biological systems, fire dynamics and systems for fire protection, bioreactors with enzymes and cells, fundamentals of heterogeneous catalysis, automotive catalysts. Careers Chemical engineering provides the students with universally applicable education in many areas of industry, research, business and administration. Our graduates typically get highly valued positions in chemical and pharmaceutical industry, in process design and software companies or in scientific and educational institutions over the world. Selection of recent theses Synthesis and characterization of magnetic nanaoparticles for applications in chemical robotics Sorption processes in amorphous and semi-crystalline polymers Formation of liposomes for controlled release of reactants and actives Study of synergic effects in arrays of coupled cells with mutual interaction InkJet fabrication, characterization and application of calcium alginate microcapsules Wetted-wall column study of absorption and distillation process analogy Application of the perturbation and response method in the study of pH-oscillatory reaction STUDY ON ENZYME REACTIONS IN SLUG FLOW MICROSYSTEMS Multi-scale Modelling of Evolution of Hetero-phase Polymer Systems Electrochemical preparation of metallic microstructures for microfluidic devices [-]

PhD in Industrial Engineering

Yasar University
Campus 4 years September 2017 Turkey İzmir

The Industrial Engineering Department not only provides basic engineering knowledge but also equips students with information technologies and English skills. Through industrial training, small projects [+]

The Industrial Engineering Department not only provides basic engineering knowledge but also equips students with information technologies and English skills. Through industrial training, small projects in various courses, and the graduation project, our department presents flexibility for students to concentrate on the special areas they are willing to study. Our curriculum is focused on Information Systems Engineering, Production Engineering and Operations Research. Globalization of the world economy has been increasing customer expectations, creating demand for goods and services with better quality at affordable prices. Hence, manufacturing and service companies have started to seek for human resources with engineering and managerial skills. Industrial Engineering, as a discipline emerging from this point of view, contributes to production and service systems using analytical problem solving techniques, information technologies, and certain social sciences. In the frame of these references, Industrial Engineering’s scope of research and education is to search the ways of increasing quality and productivity by using scarce resources effectively. So, it provides opportunities for good positions in manufacturing industries, health services, communication, food sector, education, logistics, banks, consulting firms, public firms, even even planning parts of social projects. There are three laboratories established in the Department of Industrial Engineering of Yasar University. These are Computer Aided Design and Manufacturing (CAD/CAM) laboratory, Ergonomics laboratory and Simulation laboratory. Our students have the opportunity to develop their practical skills through the individual use of laboratory equipment. By the end of the undergraduate program, students are equipped with the knowledge and ability to start a promising career in the industry or to pursue graduate studies. [-]

Doctoral Programme in Advanced Engineering Systems for Industry (AESI)

University of Minho - School of Engineering
Campus October 2017 Portugal Guimarães

The doctoral program in Advanced Engineering Systems for Industry (AESI) is promoted by the University of Minho in cooperation with Bosch Car Multimedia Portugal and is co-funded by the Portuguese Government under the PD-F Program from the Portuguese Foundation for Science and Technology (FCT). It is specially targeted for preparing PhDs students for an advanced engineering career in industry. [+]

Top Part time PhD Degrees in Engineering in Europe. Doctoral Programme in Advanced Engineering Systems for Industry (AESI) The doctoral program in Advanced Engineering Systems for Industry (AESI) is promoted by the University of Minho in cooperation with Bosch Car Multimedia Portugal and is co-funded by the Portuguese Government under the PD-F Program from the Portuguese Foundation for Science and Technology (FCT). It is specially targeted for preparing PhDs students for an advanced engineering career in industry. The AESI doctoral program is devoted to train PhD students to work in industry with the role of leading innovation and technological development in advanced engineering systems for industrial organizations, namely in: manufacturing systems and logistics; information and software systems; information visualization and CAD systems; embedded systems and industrial informatics; modeling, simulation, and optimization. The specialization in these engineering topics empowers the AESI students to promote the adoption of worldwide-recognized business excellence and quality reference models in industrial organizations. Thus, AESI students will be skilled to explicitly manage the industrial property, the innovation private strategy, and the organizational projects and change management. AESI students should appreciate the potential of an industry-based career and realize that their research capabilities can be useful for market-driven purposes. [-]

PDEng in Software Technology (ST)

Eindhoven University of Technology
Campus 2 years October 2017 Netherlands Eindhoven

Welcome to the website of the Software Technology (ST) program. ST offers a two-year post-Master technological PDEng program for MSc graduates with a degree in the field of Computer Science or a related field such as (but not limited to) Business Information Systems, Embedded Systems, Data Science or Information Security. [+]

PDEng in Software Technology (ST) Welcome to the website of the Software Technology (ST) program. ST offers a two-year post-Master technological PDEng program for MSc graduates with a degree in the field of Computer Science or a related field such as (but not limited to) Business Information Systems, Embedded Systems, Data Science or Information Security. Like a PhD candidate, you will have the status of TU/e employee after being selected for this program. The Software Technology program is designed to prepare you for an industrial career as a technological designer, and later on as a software or system architect. It starts with 14 months of advanced training and education, including 4 small, industry driven training projects, followed by a major design project of 10 months in a company. The technological PDEng programs lead to a Professional Doctorate in Engineering (PDEng) degree. These programs are given under the banner of 4TU.School for Technological Design, Stan Ackermans Institute, a joint initiative of the four universities of technology in the Netherlands. The ST program is part of the Department of Mathematics and Computer Science of the Eindhoven University of Technology. CCTO Certification This program is recognized as a PDEng program by the CCTO, the Dutch certification institute for technological designer programs. Admission and application Application is open to university graduates from the Netherlands and other countries. You will at least need a Master of Science degree or equivalent, preferably in the exact sciences. There will be an assessment and selection procedure before you can enter the PDEng program. The PDEng programs use strict selection criteria to ensure the required high quality. Excellent marks, motivation and a design-oriented attitude are vitally important. You should also have an excellent command of the English language. Selection You can apply by sending your letter of application with a complete curriculum vitae and at least two letters of recommendation (in English). Suitable candidates will be invited for an interview with the selection committee of the relevant PDEng program. Each PDEng program has different starting dates, as well as its own specific admission requirements and selection procedure. The exact requirements and selection procedure for each program are listed on the program's website. Admission If you are selected for a PDEng program, you are appointed as a trainee for the duration of the program, up to two years. You are a member of the scientific staff and receive a salary in accordance with government regulations. Because you are a trainee, you do not have to pay a tuition fee. [-]

FdV Life Science PhD Program

Center for Research and Interdisciplinary (CRI)
Campus France

Since the creation of the FdV doctoral school in 2006, the aims were focused on life sciences. Traditionally, students have pursued interdisciplinary research projects in natural sciences, engineering and technology, medical and health sciences. Recently, projects in the life sciences have incorporated approaches and/or applications from other disciplines including the social sciences and humanities, however the focus of the work is on advancement of knowledge in life science. [+]

Top Part time PhD Degrees in Engineering in Europe. Since the creation of the FdV doctoral school in 2006, the aims were focused on life sciences. Traditionally, students have pursued interdisciplinary research projects in natural sciences, engineering and technology, medical and health sciences. Recently, projects in the life sciences have incorporated approaches and/or applications from other disciplines including the social sciences and humanities, however the focus of the work is on advancement of knowledge in life science. As of December 2015, over 110 PhDs have been granted to FdV fellows studying topics at the frontiers of life science, and over 120 are currently in pursuit of their degree. “Frontières du Vivant” (FdV) projects involve interactions between a broad range of academic disciplines, in the pursuit of understanding living systems. Students who join the doctoral school are trained in various disciplines (e.g. biology, physics, medicine, economy, linguistics) from around the world. Degree requirements The PhD at the FdV program represents a combination of research experience gained in the hosting lab and experience in interdisciplinary science-related activities gained through the doctoral school. Students are required to complete the FdV training program, which consists of at least 300 hours of training. Half of the hours must be completed through FdV approved courses, workshops, or activities and the remainder may be completed through external programs, international conferences, summer schools, etc. The doctoral school does not require a determined number of publications to authorize the defense. However, it recommends that students are involved in 3 publications during their thesis: One research article written with the lab, not necessarily as lead author, and not necessarily on the student’s main subject. One review type article, taking advantage of the work of interdisciplinary synthesis expected by the school. One research article as lead author on the student’s main subject. Approval to defend the thesis is granted by the doctoral school director. The director will consider the following: the Thesis Advisory Committee recommendations, research achievements, publications or dissemination of the work in thesis, and completion of the doctoral school training program including courses, conferences, and involvement in the FdV doctoral program. Featured Life Science projects Randomness and variability in animal embryogenesis, a multi-scale approach The developmental polarity and morphogenesis of a single cell Unraveling the neural circuitry of sequence-based navigation using a combined fos imaging and computational approach Mechanotransductional regulation of mesoderm invagination and posterior endoderm invagination of the Drosophila embryo Symmetry breaking and Cell polarization imposed by an external mechanical cue Featured Frontiers of Life Science Projects Traditionally, students have pursued interdisciplinary research projects in natural sciences, engineering and technology, medical and health sciences. Recently, projects in the life sciences have incorporated approaches and/or applications from other disciplines including the social sciences and humanities, however the focus of the work is on advancement of knowledge in life science. The following featured dissertations received the highest honors from their defense committees: Mention Très honorable avec Félications This grade is reserved for candidates with exceptional skills proven by their achievements and the quality of their thesis defense. It can be awarded only if a) there is a unanimous agreement of the thesis jury members under an anonymous vote and b) the jury president writes and signs an additional report justifying this distinction. [-]

PhD in Engineering, Product Design and Textiles specialisms

University of Bolton
Campus 3 - 7 years August 2017 United Kingdom Bolton

The doctor of philosophy (PhD) degree is aimed at students with a masters degree in a relevant field, in addition to a good honours degree (or significant work experience and professional qualifications), who wish to undertake a research-based doctorate. On the PhD programme you are expected to demonstrate the creation and interpretation of new knowledge through original research, or other advanced scholarship of a quality to satisfy peer review, which... [+]

Engineering, Product Design and Textiles specialisms - PhD The doctor of philosophy (PhD) degree is aimed at students with a masters degree in a relevant field, in addition to a good honours degree (or significant work experience and professional qualifications), who wish to undertake a research-based doctorate. On the PhD programme you are expected to demonstrate the creation and interpretation of new knowledge through original research, or other advanced scholarship of a quality to satisfy peer review, which extends the forefront of the discipline and merits publication. You will also be expected to acquire an understanding of a substantial body of knowledge in your particular subject area in the field of engineering or design, as well as a general ability to conceptualise, design and implement a project for the generation of new knowledge. You will also gain a detailed understanding of applicable techniques for research and advanced academic enquiry in the engineering or design subject area. If you wish to develop research and analytical skills and conduct an original piece of research this course is appropriate for you. Your research may be applied research or action research, and may be based on your work in industry if you choose to study part-time. Careers & professional development Recent graduates from the PhD programme are following careers in academia and industry. On graduation you will become a member of the University's alumni association. You will be a lifelong member of the University's community, able to access careers information, the library, professional periodicals and journals, as well as a range of other facilities. Subject overview With over thirty years' experience in teaching, practice and research in engineering, the University of Bolton leads the field. The engineering and design research group works in collaboration with industry and our strengths lie in applied research. The group encompasses a number of different engineering and design disciplines, including electronic engineering, mechanical engineering, automotive engineering, product design and textiles. Research topics Research topics include: - applications of electronics - applied physics - robotics - manufacture of electronics-enabled products - engine design - structural crashworthiness - impact biomechanics - accident investigation - manufacturing systems - general textile technology - textile supply chain - advanced composite materials - inclusive design - finite element modelling. [-]

Doctoral Programme in Chemical Technology

Aalto University
Campus 4 years August 2017 Finland Espoo

The main goal of the Doctoral Programme in Chemical Technology is to train Doctors and Licentiates of Science (Technology), skilled in independent research work, for positions in academic and business sectors as well as in public administration. [+]

Top Part time PhD Degrees in Engineering in Europe. About the Program The main goal of the Doctoral Programme in Chemical Technology is to train Doctors and Licentiates of Science (Technology), skilled in independent research work, for positions in academic and business sectors as well as in public administration. The Doctoral Programme in Chemical Technology comprises 7 research fields . The Departments of Biotechnology and Chemical Technology, Chemistry, Materials Science and Engineering, and Forest Products Technology are jointly responsible for the programme. The doctoral programme has its own Into.aalto.fi pages providing information on doctoral studies to both applicants and doctoral candidates. There are two requirements for the completion of a doctoral degree: an approved doctoral dissertation and theoretical studies required for the degree. The extent of theoretical studies is 40 ECTS credits, comprising two modules. The main focus of doctoral studies is, however, on research work and the evaluation of research results as well as on publications in peer-reviewed publication series. In a nutshell, the goal of doctoral education is to conduct research that produces new knowledge and, in the process, to become a qualified researcher. This learning process culminates in a doctoral dissertation and its public defence under the supervision of reviewers with expertise in the field of the research. [-]

PhD in Physics of Nanostructures

Charles University Faculty of Mathematics and Physics
Campus Part time 4 years September 2017 Czech Republic Prague

The graduate of the PhD study branch Physics of nanostructures will be competent in the field of physical properties of various types of low-dimensional structures in semiconductor, metallic, and dielectric materials, as well as biological nanostructures. [+]

Subject entrance examination The subject entrance examination takes the form of a discussion about the chosen study programme and the intended doctoral thesis topic. The committee judges the applicant's interest in the field, motivation, expertise, and overall readiness for doctoral studies. The level of knowledge expected is that required for passing the state final examination of the corresponding master's study programme and branch at Charles University. The applicant must demonstrate his/her insight into the basic areas of science relevant to the chosen thesis topic. The committee also takes into account documents submitted with the application, namely the statement by the proposed advisor, by the head of the proposed training department, recommendation letters, CV, and the letter of motivation. Language entrance examination The language entrance examination verifies that you have an adequate command of the English language, i.e. at least at level B2 of the Common European Framework of Reference for Languages (CEFR). Conditions for admission Admission for studies You will be admitted for studies if you have completed a Master degree programme, successfully pass (or get a waiver of) the subject and language entrance examination, and if an advisor in the required study programme is available. Information on the exercise of graduates The graduate of the PhD study branch Physics of nanostructures will be competent in the field of physical properties of various types of low-dimensional structures in semiconductor, metallic, and dielectric materials, as well as biological nanostructures. According to the subject of the PhD thesis, he/she will be an expert in the preparation and growth of various types of nanostructures and in the application of physical methods for their characterization and diagnostics. The graduates can practice in basic physical, chemical or bio-physical research, in an applied material research (new metallic, semiconductor and dielectric materials), in sensorics, in the catalysis research, nanofluidics, in the research of micro- and nanomechanic systems, as well as in industrial nanotechnology. [-]

PhD in Applied Geology

Charles University Faculty of Science
Campus Part time 4 years September 2017 Czech Republic Prague

A graduate of the Applied Geology Ph.D. program has acquired deep knowledge in the field of engineering geology focused on theoretical and experimental soil and rock mechanics as well as geotechnical mathematical modelling. [+]

Top Part time PhD Degrees in Engineering in Europe. Applied geology with specializations of geology of mineral deposits, engineering geology, hydrogeology, applied geophysics, environmental geology and geochemistry is focused on study and the use of the rock environment and its protection. ENGINEERING GEOLOGY Engineering geology applies the geological knowledge in design and construction in all branches of civil engineering, in mining and in urban planning. It is an interdisciplinary field in between the science and technology. Using technical or rather mathematical methods, the knowledge gained by geology is applied in analyzing geodynamic processes and the interaction between the rock and civil engineering structures. HYDROGEOLOGY Hydrogeology is a scientific field engaged in groundwaters, their origin, conditions of incidence, laws of movement, their regimes, physical and chemical properties, their interaction with rocks, surface water and atmosphere. Hydrogeology ranges among applied geological branches and has closest relation to engineering geology. Modern hydrogeology has the character of a cross-border scientific discipline at the margin between geology, hydraulics, hydrology, chemistry and several technological disciplines (water management, civil engineering, chemical technology of water treatment etc.).A necessary method of modern hydrogeology is the development and use of mathematical models simulating natural processes as well as artificial interventions in the regime of waters both in saturated and unsaturated zones. The contents of the hydrogeology of today is moving from simple searching for water resources to the determination of optimum conditions of their utilization and protection. Hydrogeology plays an irreplacable role in the field of the protection of the living environment, in research and remediation of contaminated soils, rocks and groundwater. APPLIED GEOPHYSICS Applied geophysics studies physical fields and their utilization in solving geological problems. The main interest is in the upper part of the Earth s crust in the depth range of the first meters to first kilometers. The basic methods of applied geophysics are: gravity methods, magnetic methods, seismic methods, geoelectrical methods, radioactivity methods, geothermal methods and well logging. Geophysical methods are applied for investigation and exploration of mineral deposits, building materials, water resources, energy resources and are significant in monitoring and protection of natural environment. Description of the entrance examination and evaluation criteria The entrance examination has one round and is held as an interview. In exceptional cases, requested in writing by 30 April 2017, the dean can permit entrance examinations to take place via information and communication technology. During the entrance examination the candidate must demonstrate technical and linguistic skills to study the given field along with attributes necessary for scientific work. The entrance examination also takes into account the interest of the candidate in pursuing specific doctoral work with a particular supervisor and the candidate’s ability to handle this topic. The maximum score of the examination is 100 points. Conditions for admission Submission of a properly completed application, including prescribed appendices, and payment of the application fee by 30 April 2017. Completion of a master’s program of study at a university documented by a notarized copy of a diploma or certificate of equivalence of a foreign university education, or an original confirmation of completion of the required education by 30 September 2017. The requirement of submitting a notarized copy of a diploma does not apply to master’s graduates of Charles University. Applicants whose request for recognition of a foreign education has not been decided upon by 30 September 2017 may submit the required document by 21 October 2017. Passing grade on the entrance examination All applicants scoring at least 50 points on the entrance examination will be admitted for study. Information on the exercise of graduates A graduate of the Applied Geology Ph.D. program has acquired deep knowledge in the field of engineering geology focused on theoretical and experimental soil and rock mechanics as well as geotechnical mathematical modelling, in the field of hydrogeology focused on the use and protection of ground water resources, in the field of applied geophysics with special interest on mathematical models of physical fields, in the field of economic geology focused on the genesis of raw mineral material deposits including prospecting, exploration and evaluation as well as the problems of the reclamation of abandoned mines, and in the field of environmental geology and geochemistry. [-]

Phd in Urban Planning

Universidade Lusófona de Humanidades e Tecnologias
Campus 3 years October 2017 Portugal Lisbon

The following may apply for the Doctoral Programme: a) People who hold a master's degree or legal equivalent degree; b) People who hold a B.A., people who have an especially relevant school or scientific curriculum that is acknowledged as certifying [+]

Phd in Urban Planning

Programme Director

Prof.ª Doutora Fernanda Magalhães

Secretariat

Dra. Edite Medinas

Entrance Conditions

The following may apply for the Doctoral Programme:

a) People who hold a master's degree or legal equivalent degree;

b) People who hold a B.A., people who have an especially relevant school or scientific curriculum that is acknowledged as certifying capacity to obtain this study cycle by the Doctoral Programme's Scientific Committee;

c) People who have a school, scientific and professional curriculum that is acknowledged as certifying capacity to obtain this study cycle by the Doctoral Programme’s Scientific Committee.... [-]


PhD in Nautical Operations – Joint Degree

University College of Southeast Norway
Campus Part time January 2017 Norway Porsgrunn Drammen Rauland + 1 more

The doctoral programme trains qualified candidates for research, teaching, dissemination and innovation work, and other activities where there is a requirement for scientific insight and an operational maritime focus. [+]

Top Part time PhD Degrees in Engineering in Europe. PhD in Nautical Operations – Joint Degree About the programme The doctoral programme in Nautical Operations is a joint degree between University College of Southeast Norway (HSN) Stord/Haugesund University College (HSH) Norwegian University of Science and Technology, Ålesund (NTNU) Arctic University of Norway (UiT) The doctoral programme trains qualified candidates for research, teaching, dissemination and innovation work, and other activities where there is a requirement for scientific insight and an operational maritime focus. Implementation of complex nautical operations today requires interdisciplinary and varied expertise, including research expertise, for safe and efficient planning, implementation and evaluation of nautical operations. Academic content Nautical operations is comprised of two disciplines: Nautical, which covers the navigation, manoeuvring and transport of floating vessels, and operations, which indicates that the PhD programme will focus on applied research to support, improve and develop the activities that are being implemented. The operational perspective includes both strategic, tactical and operational aspects. Strategic levels including choosing the type and size of a fleet of vessels. Tactical aspects concerning the design of individual ships, choice of equipment and personnel. The operational aspects include the planning, implementation and evaluation of nautical operations. It will be a common subject that is offered at all four institutions. Further academic content will be linked to individual focus areas at the four institutions: Maritime Organizational Safety Management and Fire Safety and Evacuation Research at HSH Maritime Operations and Sensor Technology at UiT Maritime Human Factors together with Maritime Logistics and port operations at HSN Maritime Design and Product Development at NTNU The PhD programme consists of: The academic training component (30 credits). This is made up of topics at PhD level divided into compulsory (15 credits) and elective (15 credits) components. The core areas of the academic training have two compulsory and eight elective topics based on the programme's overall profile. The core areas ensure the continuation of the central themes in the maritime-related undergraduate and graduate programmes at the four institutions. The research component thesis is an independent research or research and development project, that must meet international standards with regard to ethical requirements, academic standards and methodology within the field of nautical operations. The thesis should contribute to the development of new specialist knowledge and be at a level that suggests it could be published internationally or issued in an appropriate format, as part of the field's research-based knowledge development. What kind of job can you get? Candidates will be qualified for positions within the national and international maritime sector. Jobs and sectors can be, for example: Supplier industry to the maritime sector Shipping companies State companies and public institutions with maritime activities Consultancy firms The HE sector with training for the maritime professions Offshore and energy companies Ports and land-based services for the maritime industry Training and education centres for maritime personnel. [-]