Doctorate in Engineering and Technology in Rimouski in Canada

See PhD Programs in Engineering and Technology 2017 in Rimouski in Canada

Engineering and Technology

One must accomplish two things when earning a PhD. First one must understand a particular subject thoroughly. Secondly, one must extensively in knowledge about that subject.

The field of engineering and technology involves the study of how the conceptual design focus of engineering can be utilized in technological applications. Engineering and technology students learn how to take the plans made by engineers and make them work in the real world.

Canada is a North American country consisting of ten provinces and three territories. Located in the northern part of the continent, it extends from the Atlantic to the Pacific and northward into the Arctic Ocean.

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PhD In Engineering

Université du Québec à Rimouski UQAR
Campus Full time September 2017 Canada Rimouski

The doctorate in engineering aims to train specialists capable of designing and autonomously perform a program of research advancing the state of knowledge in the engineering of physical systems and industrial processes. [+]

Doctoral Degrees in Engineering and Technology in Rimouski in Canada. The doctorate in engineering aims to train specialists capable of designing and autonomously perform a program of research advancing the state of knowledge in the engineering of physical systems and industrial processes. This program is offered by UQAR extension under an agreement with UQAC. Targeted audience The doctorate in engineering will address: candidates who lean towards a career in research or engineering education; including engineers who work in the processing industries and need, as part of their function, extensive training in research and development. Program Structure The doctorate in engineering involves the writing of a dissertation of 72 credits on a topic of engineering of physical systems and industrial processes. Research areas The interests and expertise of engineering faculty focus on different fields of study grouped around four pillars. renewable energy and bioresources Sustainable Development Wind power Exploitation and development of peat electric and hybrid vehicles Etc. Productique Development of products, processes and systems Performance optimization of processes and industrial equipment advanced industrial systems Planning, management and control of production processes Etc. electromechanical systems Modeling, simulation, design, optimization, control, maintenance and management of industrial systems Telecommunications and information processing photonics Remote sensing Signal Processing Telecommunication and satellite communication and wireless Etc. Employment Opportunities Graduates senior engineering graduate programs occupy positions in several industry sectors such as: electronic; instrumentation and control; telecommunications; aerospace; design; manufacturing; automating; production engineering; energy; aviation; pulp and paper; metal processing; transport; Computer Engineering; wind engineering; marine engineering; R and D. The main functions for Graduates are: project manager; Director of R & D; researcher or associate researcher; systems engineer; project engineer; systems designer; responsible for experimentation; product development engineer; PhD student (for master's degrees). OBJECTIVES The overall objective of the program is to train specialists capable of designing and autonomously perform a program of research advancing the state of knowledge in the engineering of physical systems and industrial processes. By engineering means of analysis, modeling, simulation, experimental studies, design, control and optimization, involving the various engineering disciplines. Physical systems are collections of elements governed by the physicochemical laws. Industrial processes covered are those that transform a raw material, a material or resource by giving it the desired properties and increased economic value. Environmental considerations seeking, first, to minimize the effects of processes on the environment and, secondly, to forecast and monitor the impact of atmospheric environment on the operation of systems. Strong links with industry are an essential feature of this scientific research. The program is open to candidates who are moving towards a career in research or engineering education as well including engineers work in manufacturing industries and in need, as part of their function, a advanced training in research and development. At the end of his training, the student will have acquired in-depth knowledge of engineering of physical systems and industrial processes and be able to: critically analyze the results of scientific publications; design, develop and carry out an original research project; work in an interdisciplinary research environment; implement a systematic process of solution of real problems defined in their entire context of scientific orders, technological, environmental or socio-economic; communicate research results and publish works accredited by the scientific community. [-]