Presenting opportunities to study in the UK
John Evans BA, MSc, MIET, C.Eng European Collaboration and partnerships. Engineering, Computing and Science My academic area: Electronic Engineering Instrumentation/Mechatronics Contact on campus: Brian Klaveness b.klaveness@glyndwr.ac.uk
Study opportunities 1. August 2017: 4 weeks - Engineering and Computing Summer Schools 2. September 2017: 1 year - Undergraduate (Honours) degrees: BA, BEng, BSc, Possible progression to: 3. June 2018 1 year - MSc fast-track Engineering degrees. 4. September 2018 1 year - Postgraduate degrees: Master of Science (MSc.)
Student Statistics, Engineering (Germany) Current students 1. Undergraduate students Bachelor of Engineering [B.Eng.(Honours)] - 120 students studying 5 programmes 2. Postgraduate students a. Master of Science [MSc] - 18 Fast Track study option - 15 Normal study option (German/French/UK/Swiss) a. Doctor of Philosophy [PhD] - 12 students Over past 3 years (Engineering and Computing) students have completed: - 150 Master of Science [MSc] - 25 Doctor of Philosophy [PhD]
Master of Science (MSc.) Fast Track option May 2017 Students successfully complete undergraduate studies with a 1 st or 2 nd degree Classification (<60% average) June - July 2017 Students study postgraduate MSc subjects for 2 months End of July 2017 End of July examinations and students return home to Austria August - September 2017 Assignment work successfully completed in home country, submitted via Moodle September 2017 May 2018 Students work on and complete Dissertation working in EU (Austrian?) companies. Students are supervised and give regular presentations via Skype with their academic supervisor at Glyndwr University May 2018 Studies completed.
Wrexham Glyndwr University in the UK
Wrexham campus Glyndwr University
Chester, Liverpool and Manchester
West of the campus - North Wales
Sports activities
Snowden 1085m!!
Wrexham Wrexham and the area
Statistics Total numbers: Students 9000 (5000 FT/4000 PT) Academic staff 450 Operational staff 500 Teaching Campus sites 3 Research Sites 2 Accommodation: Wrexham campus 520 + Private accommodation
1. Composite Materials Research Centre, Broughton (Airbus Industrielle) O F F - C A M P U S R E S E A R C H A C T I V I T I E S 2. Optics and Electronics Research Centre, St. Asaph
Wrexham Glyndwr University campus Facilities - Engineering & Computing Labs - TV & Radio Studios - The Wall Recording Studio - Scene of Crime Suite - Human Performance Labs - Art School - Complementary Medicine Clinic - Centre for the Child - Centre for Creative Industries - Drama Studios - Libraries - Student Support Services - Accommodation
Accommodation
On campus Sports facilities Hockey pitch Sports Hall Fitness Centre Astroturf pitches Dance Studios
Study opportunities 1. August 2017: 4 weeks - Engineering and Computing Summer Schools 2. September 2017: 1 year - Undergraduate (Honours) degrees: BA, BEng, BSc, Possible progression to: 3. June 2018 1 year - MSc fast-track Engineering degrees. 4. September 2018 1 year - Postgraduate degrees: Master of Science (MSc.)
Summer School 2017 31 st July to 25 th August 2017 Video: https://www.youtube.com/watch?v=gqo4goha938&feature=youtu.be
2017 Summer School Programmes Over 200 students studying: Engineering or Computing All programmes include English language tuition Successful students receive a University Certificate
Choose your Summer School Programme: All courses = 30ECTS (European Credit Transfer System) CISCO Computer Game Development Automotive Technology Electrical and Electronic Technology Aeronautical/Mechanical Technology Mechatronics Renewable Energy and Sustainability
Aeronautical/Mechanical Technology: Analytical Techniques(Maths) (5 ECTS) Business and Management (5 ECTS) Control Engineering (5 ECTS) Dynamics (5 ECTS) English (10 ECTS)
Electrical and Electronic Technology: Analytical Techniques(Maths) (5 ECTS) Business and Management (5 ECTS) Control Engineering (5 ECTS) Programme Automotive Controllers (5 ECTS) English (10 ECTS)
Renewable Energy and Sustainability: ENG 501 Business Management (5 ECTS) ENG 575 Analytical Techniques (5 ECTS) ENG 500 Low Carbon Systems (10 ECTS) English (10 ECTS)
Mechatronics (Industrial Engineering): Analytical Techniques(Maths) (5 ECTS) Business and Management (5 ECTS) Control Engineering (5 ECTS) Mechatronics (5 ECTS) English (10 ECTS)
2017 Summer School Costs Total cost: 1,100* includes: All technical tuition All English language tuition 4 weeks accommodation on campus Airport Transfers (where possible) * Exchange rate correct at 17/01/17)
You can apply online now! 1. ww3.glyndwr.ac.uk/summerschool/summerschools/?55 2. Or follow the link to Summer School from: www.glyndwr.ac.uk/en/europeanstudents 2. Register and Select your programme 3. Pay your 50 ( 57) deposit 4. Your place is now reserved!! Note: Applications are limited so apply early!!
Study for a Bachelor Degree (BSc. or B.Eng)
Study for a Bachelor Degree in 2017 Studies begin: September 2017 and completes May 2018 Studies consist of: Lectures Tutorials Laboratory and Practical work
A UK Bachelor (Honours) degree is.. A Bachelor of Science: A Bachelor of Engineering: BSc.(Honours) B.Eng (Honours) Equivalent to 180 ECTS Gives access to Professional employment Honours degree allows progression to Masters study. UK students study for 3 years to obtain a Bachelor degree
Entry Requirements and Options for Bachelor
Professionally accepted degrees: Electrical, Electronic, Instrumentation Electrical and Electronic Engineering Mechatronics (Industrial Engineering) IOP Renewable Energy and Sustainable Technologies
BEng Hons Industrial Engineering Routes and Associated Modules Automation & Instrumentation OR Electrical Mechanical OR Plant Maintenance Mechatronics Engineering Management Project and Manufacturing Operations Management. ENG626 Project and Manufacturing Operations Management. ENG626 Project and Manufacturing Operations Management. ENG626 Project and Manufacturing Operations Management. ENG626 Further Control Engineering ENG625 Further Control Engineering ENG625 Further Control Engineering ENG625 Inter-professional Studies in Engineering ENG603 Plant & Maintenance Systems Analysis ENG655 Plant & Maintenance Systems Analysis ENG655 Plant & Maintenance Systems Analysis ENG655 Plant & Maintenance Systems Analysis ENG655 Project ENG654 Project ENG654 Project ENG654 Project ENG654 Electrical Power Systems and Drives ENG624 Mechanical Systems Analysis ENG658 Mechatronics and Industrial Engineering ENG659 Managing Workforce, Engagement and Commitment BUS605
Instrumentation Laboratory
BEng (Hons) in Electrical and Electronic Engineering Full-Time LEVEL 4 LEVEL 5 Semester 1 Semester 2 Semester 3 Semester 4 LEVEL 6 Semester 5 Semester 6 ENG461 (20 credits) Engineering Mathematics ENG537 (20 credits) Further Engineering Mathematics ENG627 (20 credits) Plant and Maintenance Systems Analysis ENG609 (40 credits) Individual Project (Honours) ENG458 (20 credits) Mechanical Science ENG555 (20 credits) Instrumentation & Control Systems Engineering ELECTRICAL OPT. MODULES** ENG645 (20 credits) - Power Electronics and Electric Drives ENG459 (20 credits) Electrical Science ENG536 (20 credits) Business and Research Development ENG638 (20 credits) Communications Engineering ENG460 (20 credits) Laboratory Methods and materials ENG560 (20 credits) Embedded Systems Design ELECTRONIC OPTIONAL MODULES * ENG561 (20 credits) RF and Microwave Engineering ELECTRONIC OPT. MODULES** ENG639 (20 credits) Signal Processing and Digital Control ENG467 (20 credits) Analogue & Digital Electronics ENG562 (20 credits) Signals and Systems Modelling and Simulation ENG5663 (20 credits) Applied Analogue and Digital Electronics ENG636 (20 credits) Electronics, Design, and Testing ENG603 (20 credits) Inter-professional Studies in Engineering ENG460 (20 credits) Introduction to Engineering Design and Practice ENG535 (20 credits) PACs ELECTRICAL OPTIONAL MODULES * ENG564 (20 credits) Electrical Machines ENG565 (20 credits) Electrical Power Engineering * Students to choose 3 optional modules ** Students to choose 2 optional modules
BEng(Hons) in Renewable Energy and Sustainable Technologies Full-Time LEVEL 4 LEVEL 5 Semester 1 Semester 2 Semester 3 Semester 4 LEVEL 6 Semester 5 Semester 6 ENG459 (20 credits) Electrical Science ENG565 (20 credits) Electrical Power Engineering ENG646 (20 credits) Wind Turbine Design and Analysis ENG609 (40 credits) Individual Project (Honours) OR ENG458 (20 credits) Mechanical Science ENG551 (20 credits) Engineering and Mechanism Dynamics and Engineering Design AUR660 (40 credits) Dissertation AUR476 (20 credits) Construction Technology 1 AUR576 (20 credits) Construction Technology 2 AUR675 (20 credits) Modern Methods of Construction ENG469 (20 credits) Introduction to Energy Systems and Sustainability ENG575 (10 credits) Analytical Techniques AUR579 (10 credits) Renewable Energy ENG461 (20 credits) Engineering Mathematics ENG460 (20 credits) Introduction to Engineering Design and Practice ENG536 (20 credits) Business and Research Development ENG564 (20 credits) Electrical Machines AUR589 (20 credits) Sustainable Development Practice ENG645 (20 credits) Power Electronics and Electric Drives AUR695 (20 credits) Urban Renewal ENG647 (20 credits) Energy and Power Gen. ENG603 (20 credits) Inter-professional Studies in Engineering ENG568 (20 credits) Thermal Energy Systems SCI508 (20 credits) Sustainability and Resource Management OPTIONAL MODULES* SCI605 (20 credits) Science and Technology in Society OPTIONAL MODULES* * Students to choose 1 optional module * Students to choose 1 optional module
Professionally accepted degrees: Aeronautical, Mechanical, Automotive Aeronautical and Mechanical Engineering Drone Technology and Operations (New) Performance Car Technology
BEng(Hons) in Aeronautical & Mechanical Engineering LEVEL 4 LEVEL 5 Semester 1 Semester 2 Semester 3 Semester 4 LEVEL 6 Semester 5 Semester 6 ENG458 (20 credits) Mechanical Science ENG536 (20 credits) Business and Research Development ENG620 (20 credits) Vibration Analysis and Complex Structures ENG609 (40 credits) Individual Project (Honours) ENG459 (20 credits) Electrical Science ENG538 (20 credits) Thermo-fluid and Propulsion ENG460 (20 credits) Laboratory Methods and Materials ENG547 (20 credits) Avionics, Flight Dynamics and Control Optional Modules ENG555 (20 credits) Instrumentation and Control Systems Engineering ENG615 (20 credits) Flight Stability, Control and Compressible Aerodynamics Optional Modules ENG461 (20 credits) Engineering Mathematics ENG537 (20 credits) Further Engineering Mathematics ENG616 (20 credits) Advanced Thermofluid & Turbomachinery ENG462 (20 credits) Introduction to Engineering Design and Practice ENG551 (20 credits) Engineering and Mechanism Dynamics, and Engineering Design ENG619 (20 credits) Aerodynamics and CFD ENG603 (20 credits) Inter-professional Studies in Engineering ENG463 (20 credits) Aircraft Systems ENG464 (20 credits) Mechanical Systems Optional Modules ENG552 (20 credits) Structures, Failure Analysis and FEA
The university has recently invested in new engineering facilities: Performance Car Laboratories Flight simulator Instrumentation laboratory Engineering Laboratories Rapid prototyping facilities
Automotive Laboratories
BEng(Hons) in Performance Car Technology LEVEL 4 LEVEL 5 Semester 1 Semester 2 Semester 3 Semester 4 LEVEL 6 Semester 5 Semester 6 ENG458 (20 credits) Mechanical Science ENG536 (20 credits) Business and Research Development ENG631 (20 credits) Performance Car Chassis, Engines, and Powertrain ENG609 (40 credits) Individual Project (Honours) ENG459 (20 credits) Electrical Science ENG556 (20 credits) Internal Combustion Engine: Theory and Technology ENG460 (20 credits) Laboratory Methods and Materials ENG557 (20 credits) Automotive Design ENG620 (20 credits) Vibration Analysis and Complex Structures ENG461 (20 credits) Engineering Mathematics ENG537 (20 credits) Further Engineering Mathematics ENG462 (20 credits) Introduction to Engineering Design and Practice ENG551 (20 credits) Engineering and Mechanism Dynamics, and Engineering Design ENG619 (20 credits) Aerodynamics and CFD ENG603 (20 credits) Inter-professional Studies in Engineering ENG465 (20 credits) Performance Car Systems ENG464 (20 credits) Mechanical Systems Optional Modules ENG552 (20 credits) Structures, Failure Analysis and FEA
Bachelor Degree: entry requirements minimum of the Staatlich Geprüfte Techniker (State Certified Technical Engineer) qualification, or equivalent Successful completion of our August Summer School evidence of your level of English. (minimum IELTS 6.0, or European equivalent) You can apply NOW for September 2017!
Software Creo Catia Fluent CFD Abaqus MATLAB Simulink Code Composer Studio, VisualDSP MPLab Agilent Vee, Xilinx ISE ModelSim WinCC Step7 SCADA Multisim/Ultiboard Altium Designer
Professionally accepted degrees: Computing Computer Science Computer Game Development Computer Network and Security Cyber Security Creative Computing Informatics Artificial Intelligence Library and Information Management
Computer Game Development
Tuition Fees for Bachelor degree BREXIT has NO effect on September 2017/18 tuition fees Mainland EU students still benefit from a substantial grant paid by the Welsh Government Engineering/Computing courses: 4,500* Actual fee: 3,900 *Exchange rate correct at 17/01/17
Student Loans Company (SLC) A Student Loan to pay your tuition fee can be obtained while you study in the UK. * No repayments whilst studying tuition fee loans don t need to be repaid until you have graduated and earning over 25,000 * Obtained as a loan through The Student Loans Company (SLC) in the UK at the request of the student. * Only Engineering and core computing programmes (Not Computer Games)
How to Apply: 1. Applications are open now for September 2017 entry 2. Apply via Braunschweig 3. The Direct Application Form can be downloaded from: www.glyndwr.ac.uk/en/europeanstudents/howtoapply 4. See your Professors for information on how to apply
Social Media Accounts @ Twitter: @glyndwruni Facebook: glyndwruni Instagram: @glyndwruni Snapchat: wrexglyndwruni YouTube: youtube.com/user/glyndwruniversity Videos: https://www.youtube.com/watch?v=gqo4goha938&feature=youtu.be (MSc Summer School) https://www.youtube.com/watch?v=cvw7at3nk5a&list=plc08pqnhoa7yzwflgju5cmplafegfawla&index=1 https://www.youtube.com/watch?v=binwgpxl5ji&list=plc08pqnhoa7yzwflgju5cmplafegfawla&index=2 https://www.youtube.com/watch?v=wirebezftfk&list=plc08pqnhoa7yzwflgju5cmplafegfawla&index=3
Study opportunities 1. August 2017: 4 weeks - Engineering and Computing Summer Schools ( 1000) 2. September 2017: 1 year - Undergraduate (Honours) degrees: BA, BEng, BSc, ( 3900) <65% = ( 5750 25%) <60% = ( 5750 10%) Possible progression to: 3. June 2018 1 year - MSc fast-track Engineering degrees. ( 5750) 4. September 2018 but: 1 year - Postgraduate degrees: Master of Science (MSc.) <70% = ( 5750 50%)
(1) PhD completion: Robert Schneider (2016) An Analysis of Aluminium Sheet Metal Alloys on their Formability Behaviour at Cryogenic Temperatures. PhD, University of Wales. (2) MPhil completion: Bernhard Bonney (2016) Design of Wake Vortex Alleviated Wings Subjected to Structural Deformation. MPhil, University of Wales. Matthias Menzl (2016) The Advancement of Punch Cutting Tools Using Ceramics. MPhil, University of Wales. Research papers published by BEng and MSc German students in IEEE Xplore Digital Library as conference papers: Knupfer, M., et al. (2016). Cross impact analysis of vehicleto-grid technologies in the context of 2030. In: Proc. 9th Int. Conference on Power Drives Systems ICPDS-2016, Perm, 3-7 October 2016, 5p. (DOI is not assigned yet) Pommerening, P., et al. (2016). Future grid 2050 in context of UK Gone Green scenario. In: Proc. 2016 IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference, Saint Petersburg, Russia, 2-3 February 2016, pp. 780-784, http://dx.doi.org/10.1109/eiconrusnw.2016.7448298
Bucher, M., et al. (2015). Estimation of electrical energy demand by electric vehicles from households: A UK perspective. In: Proc. 2015 IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference, Saint Petersburg, Russia, 2-3 February 2015, pp. 159-164, http://dx.doi.org/10.1109/eiconrusnw.2015.710225 3 Klein, K. et al. (2015) Modelling of a turbojet gas turbine engine. In: Proc. 6th IEEE Int. Conference on Internet Technologies and Applications ITA-15, Wrexham, UK, 8-11 September 2015, pp. 200-206, http://dx.doi.org/10.1109/itecha.2015.7317395 Christ, F. et al. (2015) Modelling of a wind power turbine. In: Proc. 6th IEEE Int. Conference on Internet Technologies and Applications ITA-15, Wrexham, UK, 8-11 September 2015, pp. 207-212, http:/dx.doi.org/10.1109/itecha.2015.7317396
.and Finally.we anticipate that this could be you in 2018!! Brian Klaveness