Environmental Science and Technology is intended for mid-career professionals with an interest in environmental sciences and in maintaining environmental integrity in relation to human development.
Students who successfully complete this programme will be awarded a MSc degree in Environmental Science from IHE Delft.
Start: 21 October 2021
Application deadline: 01 August 2021
After successfully completing this specialization, graduates will be able to:
- Design, organize and conduct scientific environmental research, and contribute to the development of innovative technologies for solving environmental problems;
- Analyse dynamic interactions in complex human environment systems;
- Formulate data requirements and data collection strategies and design, and apply conceptual and computational models for a better understanding of these systems;
- Provide scientific advice for policy development and decision making.
Structure & contents
This specialization consists of 14 modules covering a total of 12 months, this is followed by a 6-month research and thesis phase. Graduates of the programme will be awarded 106 ECTS (European Credit Transfer and Accumulation System) credits.
October - AprilIHE Delft, The Netherlands
- Introduction to Water and Development Required Upon completion, the participant should be able to:
- Familiarize with the educational environment and procedures of IHE Delft and collaborate in multidisciplinary and intercultural teams
- Recognize and distinguish different ways of knowing and framing water questions and problems in order to appraise water challenges from an interdisciplinary perspective
- Reflect critically on water related interventions, formulate own standpoint and engage constructively in debates
- Place the specialized knowledge on own discipline into a broader understanding of water related issues, challenges, debates and developments
- Introduction to Environmental Science 1 Required Upon completion, the participant should be able to:
- Carry out fundamental chemical, hydrological and ecological field sampling
- Carry out fundamental chemical and ecological laboratory analyses
- Apply the principles of the scientific method to design, develop and present a research project
- Apply fundamental principles of data analysis, statistics and GIS
- Identify and describe fundamental chemical, hydrological and ecological processes in relation to the environment
- Introduction to Environmental Science 2 Required Upon completion, the participant should be able to:
- Describe the current practice of wastewater treatment and resource recovery in the Netherlands, in terms of its governance, economics and technological aspects
- Apply fundamental principles of environmental modelling
- Identify and describe fundamental microbiological and socio-economic processes in relation to the environment
- Indicate interactions and relations between aspects of governance, economy, technology and microbiology, in relation to infrastructure for wastewater treatment
- Carry out fundamental microbiological laboratory analyses
- Integrated Project Environmental Science Required Upon completion, the participant should be able to:
- Analyze, evaluate and present scientific data
- Formulate a scientific research question, compare and contrast scientific information relevant to the research question from a variety of sources and present the findings in a concise report
- Make an oral presentation of scientific information
- Gather information on an environmental problem from various sources and critically assess its quality and role in the debate about the problem
- Perform a basic multi-criteria analysis in the context of decision making for an environmental problem
- Describe the environmental policy process and the role and sources of data and information that play a role in formulating policy
- Environmental Process Technology Required Upon completion, the participant should be able to:
- Discuss advantages and disadvantages of different reactor set-ups, with regard to a set of design criteria.
- Make a basic process design to achieve a desired conversion of reactants and mass or energy transfer
- Carry out experiments on process technology and write a scientific laboratory report.
- Develop the balances into a mathematical description of reactor performance.
- Apply mass and energy balances to reactors in which physical processes and chemical and microbiological reactions take place.
- Environmental Systems Analysis Required Upon completion, the participant should be able to:
- Perform a problem analysis and stakeholder analysis for a given socio-environmental system
- Communicate effectively the methods, results and conclusions of a case study (presentation and written report)
- Perform an analysis of drivers of change and their effect on ecosystem functions and services
- Construct a simple dynamic simulation model of an environmental system
- Discuss critically the strengths, weaknesses, missing information, advantages and disadvantages of the modelling and stakeholder analyses
- List and describe environmental systems analysis (ESA) concepts and methods
- Identify how ESA can be applied to Ecosystem Services and applications of Environmental Technology
- Water Quality Assessment and Monitoring Required Upon completion, the participant should be able to:
- Select and apply appropriate methods to assess water quality in natural waters in relation to their anticipated use.
- Report the results of water quality assessment and monitoring programmes using appropriate statistical tools for interpretation and presentation of large data sets.
- Design and evaluate water quality monitoring networks for different types of surface water in relation to set objectives.
- Industrial Resource Management and Cleaner Production Required Upon completion, the participant should be able to:
- Analyze the different system tools that support industrial ecology and make basic calculations related to life cycle analysis
- Compare different methods for industrial wastewater treatment and resource recovery
- Give examples for the applications of environmental management systems in the industrial context
- Suggest options for preventing pollution within urban and industrial water management settings
- Differentiate between the sustainable use of various resources and its benefits for reducing environmental burden(s)
- Categorize products designed for sustainability based on their contribution towards the circular economy of a country
- Describe the responsibilities of companies for their impact on environmental resources and assess the environmental impact of products and processes
- International Fieldtrip and Fieldwork ES Required Upon completion, the participant should be able to:
- Relate findings of the situation to your home countries and recognize the possibilities and limitations for application.
- Delineate catchments and prepare maps using GIS, navigate using map and compass.
- Describe how natural processes and anthropogenic activities interact in shaping river catchments.
- Explain the value of ecosystem protection and rehabilitation for society.
- Carry out basic eco-hydrological measurements, and analyse and interpret the collected data.
- Module 10 ES (elective) Elective
- M3608 Aquatic ecosystems: processes and applications
- M3515 Environmental assessment for water-related policies and developments
- M3605 Ecotechnologies
- Module 11 ES (elective) Elective
M3609 - Experimental methods in wastewater treatment
M3048 - Water sensitive cities
M3593 - Decentralised water supply and sanitation
M3580 - Remote sensing for agricultural water management
M3637 - Water resources planning under changing climate and environment
M3214 - Wetlands for livelihoods and conservation
M3543 - Sustainability and resilience of water organisations
M3417 - Solid waste management
M3438 - Advanced water transport and distribution
M3422 - Strategic planning for river basins and deltas
M3647 - Decision support systems in the water domain
- Summer course Elective
Five-day summer course. Elective topics include Sustainable Development Goals, nature based solutions, leadership, gender issues and serious gaming, all related to water science/engineering/management.
- Applied Environmental Management Required Upon completion, the participant should be able to:
- Solve complex environmental problems by integrating the content of the preceding modules
- Work in a team to solve complex environmental problems
- Make decisions on the basis of a limited amount of information
- Improve communication skills to present work results in written and oral forms.
- Thesis Research Proposal Development for ES Required Upon completion, the participant should be able to:
- Develop a research proposal in a clearly written, well-argued and convincing document, submitting and successfully defending it within specific deadlines.
- Introduction to Water and Development Required
Tuition & fellowships
Information about tuition fees can be found here.
Application & Admission
Academic admission to IHE Delft MSc Programmes may be granted to applicants who provide evidence of having:
- A Bachelor degree at level B/B+ (US system) or 2nd upper (British system) in an appropriate field which has been awarded by a university of recognised standing, comparable in level with a Bachelor degree from a research university in the Netherlands. Exceptions can be made if a candidate is below this level, but has a substantial experience in the field of the programme and/or has a strong motivation to join the programme.
- A good command of the English language, if this is not the first language. All non-native English-speaking applicants must satisfy the English language requirements for IHE Delft's educational programmes.
- A strong motivation to successfully complete the programme.
Several years of professional experience in an area of work related to the specialisation is an asset.
For admission to the programme please complete the online application, the link to the application section of our website is available at the top of this page.
You need to submit the following documents:
- Certified copies of degrees/diplomas.
- Certified copies of academic transcripts. Authenticated or certified copies are copies with an official stamp to verify that the copies are true copies of original documents. This official stamp may be from one of the following: a solicitor/notary, the educational institution from where the student gained the diplomas or the local council/local authority/local government office.
- Two Recommendation letters which must be printed on official letterhead paper and need to be signed and dated. We do not accept recommendation letters which are older than 1 year nor which have copied and pasted signatures and/or letterheads. If you are employed, one of the recommendation letters should be from your current employer and not older than 3 months.
- Motivation letter; explain in maximum 500 words why you wish to be admitted to the chosen programme and how it will benefit you in the future. The letter must show that you understand what the chosen programme is about.
- Copy of passport.
- Copy of results of English language test score (if required, see English language requirements).
If any of the original documents is not in English we additionally need an official English translation by a sworn translator.
Multiple MSc applications (for the same academic year) are not allowed, unless there is a period of at least 3 months between the starting dates of the programmes of interest. If a student applies for an Erasmus Mundus programme for which Erasmus Mundus scholar ships are available, he/she can also apply for another programme. If the other programme is also an Erasmus Mundus programme, the applicant can submit up to 3 applications.
Further questions about the application procedure can be found at our FAQ page, or can be addressed to:
Ms Marlies Baburek
Admission and Fellowship Officer