On this course, you’ll gain practical, theoretical and creative experience of sound engineering, music production and audio technology.
You’ll explore the design, manipulation and production of audio across many platforms, using our state-of-the-art audio-post recording, radio and TV studios to study a mix of sound engineering and theory modules.
The aim of the course is to develop the skills that you’ll need to create and deliver professional audio, whilst under pinning these skills with a sound theoretical background.
94% of our postgraduates go on to employment and/or further study within six months of graduating.DLHE 2009 and 2010
This course entails both practical based and theory modules. The modules are delivered in the recording studios, the audio technology suite, audio post production suite and lecture theatres.
MSc (one year full-time or up to three years part-time)
PgDip (nine months full-time or 18 months part-time)
MSc (16 months full-time)
PgDip (one year full-time or up to two years part-time)
Teaching and learning involves a mix of lectures and practical sound engineering work, involving individual and group learning, There is an emphasis on motivated students' self-study.
Assessment involves a mixture of practical work, report writing and project work. By the end of the course students will have built up a substantial portfolio of audio, video and new media work.
Assessment is approximately divided across the course as follows:
This degree is based in MediaCityUK,the new home for the BBC, ITV, Coronation Street and parts of the University of Salford. MediaCityUK is located at Salford Quays on the banks of Manchester's historic ship canal. The University has the first four floors of a new, purpose built facility that looks over the water to The Lowry theatre, Imperial War Museum North and the new Coronation Street set. ITV occupy the floors above us, with the three BBC buildings on one side of us and Peel Media Studios on the other.
A number of BBC departments are based at MediaCityUK, having moved from London, including BBC Breakfast, BBC Children's, BBC Radio 5 Live, BBC Future Media and Technology, BBC Learning, BBC Sport and BBC Academy. All of the BBC Manchester operations have also moved to MediaCityUK, including BBC Religion and Ethics, Current Affairs and the BBC Philharmonic.
Here is a summary of our relevant facilities at MediaCityUK:
On the main campus, we also have a Pro Tools equipped studio recording complex consisting of four control rooms and recording areas. Please see this brochure for more detailed information brochure.
The wide range of skills provided on this course will enhance your employability. Possible career paths include: audio manufacturer research and design, broadcast engineer in audio for radio or TV, audio and visual design and installation, education, interactive media and sonic arts.
Possible career paths include:
Staff have strong links with industry either through collaborative R&D projects with industry through the Acoustics Research Centre and our commercial test laboratories. Our research department is a Centre of Excellence for BBC Research.
Some students could go on to study a PhD at our world-class Acoustics Research Centre. We have been carrying out acoustics and audio research for over 30 years. Our research is funded by research councils, government bodies, and industry. It has fed into audio products that companies make and sell worldwide, as well as regulations and standards used in the UK, Europe and beyond. We are also involved in public engagement - getting more people aware of and interested in acoustic science and engineering.
Agro- and Ecosystems Engineering is about ensuring the prosperity and wellbeing of current and future generations in both the global North and global South. Agro- and ecosystems provide a wide range of essential goods and services such as food, water, energy and biodiversity. Yet, the contemporary context of population growth, rapid urbanisation, economic globalisation, climate change, deforestation, soil pollution and degradation challenges the future provisioning of a sufficient quantity and quality of these goods and services.
The Master of Agro- and Ecosystems Engineering (ACE) provides in-depth knowledge of the functioning and management of natural and production-oriented ecosystems. You can choose to focus on either temperate or (sub)tropical settings, or a combination of both. You complement the interdisciplinary core programme with a major specialisation in one out of four different domains: biological production, abiotic and biotic environment, bio-economics, and bio-geo information.
The production major focuses on agro-ecosystems, and includes specialisation tracks in crop production, production forestry systems (achieved trough a semester in Chile) and hortology (achieved trough a semester in South Africa).
The environment major provides to in-depth understanding of the biophysical functioning of both natural and agro-ecosystems with the aim of improving the management of these ecosystems' biodiversity, soil and water resources. The major includes specialisation tracks in soil and water systems, forest and nature systems, and ladscape systems.
The economics major focuses on the economic and policy-related aspects of agro- and ecosystems, with in-depth courses in the field of agricultural, food and natural resources economics.
The information major addresses earth observation and geo-data management technology, with in-depth courses covering both the technological aspects of this area and their applications in the field of terrestrial resources.
Are you looking to broaden your horizons? There are ample opportunities to conduct part of your master's thesis research at various partner institutions abroad. In addition, European residents can undertake their master's thesis research at a European or other partner university within the framework of the Erasmus+ programme. The Faculty also welcomes initiatives of students who want to do a work placement in a company or organization abroad, as well as exchange programmes with partner universities.
Two optional specialisation packages require one semester to be spent at a partner institution: the Production Forestry package is organised at the University of Temuco (Chile), while the specialisation in Hortology takes you to the University of Stellenbosch (South Africa).
The interdisciplinary nature of ACE ensures
that graduates are sought after by various professional fields related to biological production systems and ecosystem management, with particular emphasis on plant production, natural resource economics and policy, sustainable environmental management, and applications of earth observation and geomatics.
Abundant employment opportunities exist in public sector organisations, both nationally and internationally, NGOs and private companies, and can be both technical in nature, research-oriented, or at the policy/management level. Finally, ACE provides excellent preparation for undertaking PhD research.
In Belgium, graduates of the ACE programme are entitled to use the professional title of 'Bio-ingenieur' ('Bioscience Engineer') .
Application period/deadline: November 1, 2017 - January 24, 2018
• Multidisciplinary studies combine process engineering to environmental engineering
• The programme provides skills to solve environmental problems and challenges
• Programme’s industry-branch-independent, phenomena-based approach provides excellent skills in different areas of environmental engineering
This international 2-year master’s programme concentrates on energy production systems and cleaner production methods and on sustainable technologies. The programme will give you relevant skills and core knowledge of the latest technologies, tools, and methods of the field, such as:
• Sustainable technologies related to energy systems and cleaner production methods
• Abilities to control, optimize, design and develop industrial environmental processes
• Tools in controlling and reducing harmful environmental effects
• Methods for water and waste water treatment, water resources and water engineering
The programme has two options for specialization fully available in English:
• Energy Systems and Cleaner Production, and
• Water Engineering.
These study options provide knowledge on how to manage environmental issues with an industry-branch-independent, phenomena-based approach in energy production and water engineering, protection and restoration of natural environments, and in water and waste water processes by application of proper production methods, tools, and technologies.
The programme educates environmental engineers with skills to solve environmental problems and challenges, both locally and globally, in areas rich in natural resources of high economic value contained in an ecologically sensitive nature.
The graduates will have knowhow for scientific and applied work both in industry and academia. The graduates are able to work in different environment related business sectors, in local and regional public administration, as well as environmental authorities or research institutes.
Possible job titles include:
• Chemical process designer
• Environmental engineer
• Plant engineer
• Development manager
• Production manager
Students applying for the programme must possess a bachelor’s degree or equivalent in a suitable field of engineering, e.g. in environmental, process, chemical, or civil engineering.
A business engineer is trained for analyzing and solving business problems from a quantitative and managerial point of view. The programme belongs to the domain of business economics and is management oriented: students learn how companies function, how business processes should be designed and how business activities can be optimally organized. The managerial focus is combined with strong analytical skills and a profound understanding of how business and (technological) innovation processes work. This integration of disciplines is of high relevance to production environments as well as to service companies (e.g. consultancy or ICT).
A business engineer is an interdisciplinary manager with an extended problem solving toolbox and a holistic view on modern companies in today’s economic, legal and social context. With a capacity for analytical thought, management and communication skills and an eye for sustainable opportunities, business engineers are able to shape the future of companies and organisations.
The Master of Science in Business Engineering is organised at two campuses: Brussels and Leuven. The programmes share a common structure and have the same compulsory courses. Each campus offers different courses in the majors, minors, and electives. Students on one campus have the option to follow some of the courses at the other campus.
Majors offered in Leuven:
Majors offered in Brussels:
This is an initial Master's programme and can be followed on a full-time or part-time basis.
Do you feel like expanding your horizons? We encourage you to study abroad at one of the faculty’s exclusive partner universities in the first semester of the second year. Increasingly, employers value young professionals who are familiar with doing business in a multicultural and multilingual setting. Therefore, the faculty has a strong international focus with a flourishing participation of students in summer schools and exchange programmes. Make your experience truly international by studying in different parts of the world.
More information on the various international experiences the faculty has to offer can be found on this website.
Are you a future business engineer? Then most probably you feel at ease with the following characteristics:
A business engineer is trained for analyzing and solving business problems from a quantitative and managerial point of view. The programme belongs to the domain of business economics and is management oriented: students learn how companies function, how business processes should be designed and how business activities can be optimally organized. The managerial focus is combined with strong analytical skills and a profound understanding of how business and (technological) innovation processes work. This integration of disciplines is of high relevance to production environments as well as to service companies (e.g. consultancy or ICT).A business engineer is an interdisciplinary manager with an extended problem solving toolbox and a holistic view on modern companies in today's economic, legal and social context. With a capacity for analytical thought, management and communication skills and an eye for sustainable opportunities, business engineers are able to shape the future of companies and organisations.
Graduates of the MSc in Business Engineering mostly take up managerial and/or research positions in business, national and international institutions, and at universities. Business engineers usually start their careers in technical expert positions within interdisciplinary management teams. They are typically hired to optimise production processes, to develop quantitative models in financial institutions, or to market technological innovations. They are also able to take up more traditional management tasks, armed with the ability to support key decisions using quantitative analyses. Business engineers quickly move up to executive functions in various management domains in companies and organisations. Given the variety of skills acquired, they are highly sought after by a wide range of companies – from start-ups and small firms to multinational corporations – for various positions in Belgium and abroad.
The Master of Science in Chemical Engineering programme is primarily aimed at applying chemical engineering principles to develop technical products and to design, control and improve industrial processes. Students also learn to take environmental and safety issues into account during all phases of the process.
Two guiding principles of sustainable development – the rational exploitation of resources and energy, and the application of the best available technology – are emphasised, as is the mantra “reduce, reuse, recycle”.
As a chemical engineering student, you will learn to think in a process-oriented manner and grasp the complexity of physico-chemical systems. Even more than other specialists, you will be asked to solve problems of a very diverse nature. Insights into processes at the nano and micro scale are fundamental for the development of new products and/or (mega-scale) technologies.
While students should have a foundational knowledge of chemistry, the underlying chemistry of the elements and components, their properties and mutual reactions are not the main focal points of the programme.
With a focus on process, product and environmental planet engineering, the programme does not only guarantee a solid chemical engineering background, it also focuses on process and product intensification, energy efficient processing routes, biochemical processes and product-based thinking rather than on the classical process approach.
The programme itself consists of an important core curriculum that covers the foundations of chemical engineering. The core curriculum builds on the basic knowledge obtained during the Bachelor’s. In this part of the programme, you will concentrate on both the classical and the emerging trends in chemical engineering.
Students also take up 9 credits from ‘Current trends in chemical engineering’-courses. These courses are signature courses for the Master’s programme and build on the research expertise present within the department. These courses encompass microbial process technology, process intensification, exergy analysis of chemical processes and product design.
The curriculum consists of a broad generic core, which is then strengthened and honed during the second year, when students select one of the three specialisations: product, process and environmental engineering.
This choice provides you with the opportunity to specialise to a certain extent. Since the emerging areas covered in the programme are considered to be the major challenges within the chemical and related industries, graduating in Leuven as a chemical engineer will give you a serious advantage over your European colleagues since you will be able to integrate new technologies within existing production processes.
During their Master’s studies, students are encouraged to take non-technical courses (general interest courses), organized for instance by other faculties (economics, social sciences, psychology…) in order to broaden their scope beyond mere technical courses.
An important aspect of the Master’s programme is the Master’s thesis. Assigning Master’s thesis topics to students is based on a procedure in which students select 5 preferred topics from a long list.
The Master’s programme highly values interactions with the chemical industry which is one of the most important pillars of the Flemish economy. As such, some courses are taught by guest professors from the industry.
One or two semesters of the programme can be completed abroad in the context of the ERASMUS+ programme. Additionally, you can apply for an industrial internship abroad through the departmental internship coordinator. These internships take place between the third Bachelor’s year and the first Master’s year, or between the two Master’s years.
The department also offers a new exchange programme with the University of Delaware (United States) and with the Ecole Polytechique in Montréal (Canada).
The faculty’s exchange programmes are complemented by the BEST network (Board of European Students of Technology). This student organisation offers the opportunity to follow short courses, usually organised in the summer months. The faculty also participates in various leading international networks.
You can find more information on this topic on the website of the Faculty website.
The chemical sector represents one of the most important economic sectors in Belgium. It provides about 90,000 direct and more than 150,000 indirect jobs. With a 53 billion euro turnover and a 35% share of the total Belgian export, the chemical sector is an indispensable part of the contemporary Belgian economy.
As a chemical engineer you will predominantly work in industrial branches involved in (the production of) bulk and specialty chemicals, oil and natural gas (petrochemical companies and refineries), non-ferrometallurgics, energy, waste treatment, food, cosmetics, pharmaceuticals and biotechnology. The following professional activities lie before you:
Apart from the traditional career options, your insight into complex processes will also be much appreciated in jobs in the financial and governmental sector, where chemical engineers are often employed to supervise industrial activities, to deliver permissions, and to compose regulations with respect to safety and environmental issues.
As self-employed persons, chemical engineers work in engineering offices or as consultants. Due to their often very dynamic personality, chemical engineers can also be successful as entrepreneurs.
The Advanced Master is the ideal stepping-stone to a high-level job in the field of welding and joining technology. In many countries, there is a permanent and growing demand for scientists and engineers who are knowledgeable and trained at an academic level in the field of welding engineering.
The programme is indispensable (and obligatory) for engineers seeking to work as Responsible Welding Coordinators. Engineers interested in R&D, quality, design, production, maintenance and particularly welding metallurgy will also find the programme instructive.
4 Clusters in the programme:
Upon successful completion of the entire programme (60 ECTS), you will be awarded the degree of MSc in Welding Engineering.
Upon successful completion of the course (40 ECTS), you gain access to the International Institute of Welding oral examination. A passing score results in IIW accreditation as a certified International Welding Engineer (IWE) and European Welding Engineer (EWE).
The green KU Leuven Technology Campus De Nayer, near Mechelen, is certified as an Authorised Training Body for International Welding Engineering by the Belgian Welding Association (BVL), which represents the International Institute of Welding (IIW).
This advanced master's programme strives to offer students a complete training in the professional niche of Welding Engineering. The programme has the following goals:
To this end, students must acquire sufficient knowledge, skills and abilities in order to:
This programme opens up a wide spectrum of professional possibilities and exposes you to an extremely varied field of action: petrochemistry, the aviation and aero-space industry, civil construction, assembly plants, the nuclear sector, shipping and logistics, general construction, and more. As a welding engineer, you will carry out a wide range of duties, including research, design, production, maintenance, sales and quality inspection.
Our graduates find employment in local SMEs, large multinational industrial companies as well as private and public organisations at home and abroad. There is a real need for experts with the capability to conduct research, carry out quality control analyses, and perform inspections, monitoring and certification in the broad field of welding. Some graduates start a career as independent consultants.