MSc Biosystems Engineering
The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role.
During the master Biosystems Engineering, students are educated in finding innovative solutions. The programme combines knowledge of technology, living systems, natural and social sciences with integrated thinking using a systems approach. Solutions can be applied to either the field of food or nonfood agricultural production. During the programme, you develop independence and creativity while acquiring skills that enable you to analyse problems and work as part of an interdisciplinary team. Biosystems Engineering is a tailor-made, thesis oriented programme based on the specific interests and competencies of the student.
This topic consists of four main themes, namely automation for bioproduction, greenhouse technology, livestock technology and soil technology. All these topics have the shared goal of designing systems in which technology is applied to the demands of plants, animals, humans and the environment. Examples of such applications include precision agriculture, conservation tillage, fully automated greenhouses and environmentally friendly animal husbandry systems that also promote animal welfare.
Systems and Control
Production processes and various kinds of machinery have to be optimised to run as efficiently as possible; and with the least amount of possible environmental impact. To achieve this, computer models and simulations are developed and improved. Examples include designing control systems for a solar-powered greenhouse to include a closed water cycle and designing a tomato-harvesting robot.
Information and communication play a vital role in our society. It is necessary to acquire, use and store data and information to optimise production processes and quality in production chains. This requires the design and management of business information systems, software engineering, designing databases and modelling and simulation.
Environmental technology revolves around closing cycles and reusing waste products and by-products. Processes have to be designed in such a way that they either reuse waste or separate it into distinct and reusable components. Examples include the production of compost, the generation of green energy or the design of environmentally friendly animal husbandry systems and greenhouses.
The goals of agrologistics are to get the right product in the right quantity and quality at the right time and to the right place as efficiently as possible while fulfilling the requirements of the stakeholders (such as government legislation and regulations). This requires the design of effective, innovative logistics concepts in agrifood chains and networks. Examples are the design of greenhouses developed for optimal logistics or designing a dairy production process with minimal storage costs.
The importance of biobased economy is increasing. Energy savings and the use of renewable energy are directions for achieving an environmentally sustainable industrial society. Biomass of plants, organisms and biomass available can be turned into a spectrum of marketable products and energy. In this track, you learn more about process engineering, biological recycling technology, biorefinery and how to abstract a real system into a physical model and analyse the physical model using dedicated software.
Your future career
Most graduates are employed in the agrofood sector, or related sectors of industry and trade, from local to international companies. They are project leaders, product managers, technical experts, sales specialists or managers at many kinds of companies including designers of agricultural buildings (animal husbandry systems, greenhouses) and bioenergy production systems. Others find jobs with IT companies (climate control computers, automated information systems) or firms in the agro-food chain that produce, store, process, distribute and market agricultural products. In the service sector or at governments, graduates enter careers as consultants, information officers or policymakers in the fields of technology and sustainable agricultural production, while others enter research careers at institutes or universities.
Alumnus Patrick Honcoop.
"I am working as a product manager at 365 FarmNet in Germany. 365FarmNet supports farmers to manage their whole agrarian holding with just one software application. I am responsible for the content of the software. I am the link between the farmers, the agrarian holdings and the software developers. I really enjoy these dynamics and variety within my function. Just like during my studies, when we visited farmers, companies and fairs during courses and excursions organised by the study association."
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