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Develop a career in Water and Wastewater Engineering 

Our MSc in Water and Wastewater Processes offers you two distinct study routes to ensure you can tailor your study to your specific needs and career prospects.

By choosing this Water and Water Processes - Engineering route, you will apply engineering principles for the effective selection, design and operation of water and wastewater treatment processes and assess performance, environmental impact, energy, risk and cost.

Water and Water Processes MSc - Environmental Science route

Overview

  • Start dateFull-time: October, part-time: October
  • DurationFull-time: one year, part-time: two-three years
  • DeliveryTaught modules 80 credits/800 hours, Group projects 40 credits/400 hours, Individual project 60 credits/600 hours
  • QualificationMSc, PgDip, PgCert
  • Â鶹´«Ã½AV typeFull-time / Part-time
  • CampusCranfield campus

Who is it for?

This route is best-suited for those who want to pursue an engineering position in the water industry. This course will build on your existing knowledge with up-to-date skills and advanced concepts in the operation, control, design, regulation and management of the water systems and networks of the future. Whether you want to work for an organisation in the private or public sector or be an independent developer, inventor, scientist, or creator this course will provide you with the skills to meet your career aspirations.
 
The Engineering route is well-suited to those from a wide range of academic backgrounds, including (but not limited to) environmental engineering, chemical engineering, civil engineering, chemistry, biochemistry, microbiology and public health.
 

Your career

This MSc equips the students with the knowledge and skills required to pursue a career in water engineering in the public and private sectors or an academic career (PhD). This course prepares students for a wide range of careers including commissioning engineer, process engineer, asset manager, engineering consultant, process scientist, regulatory scientist/inspector, researcher government and NGO roles.

Cranfield Careers and Employability Service

Cranfield’s Career Service is dedicated to helping you meet your career aspirations. You will have access to career coaching and advice, CV development, interview practice, access to hundreds of available jobs via our Symplicity platform and opportunities to meet recruiting employers at our careers fairs. Our strong reputation and links with potential employers provide you with outstanding opportunities to secure interesting jobs and develop successful careers. Support continues after graduation and as a Cranfield alumnus, you have free life-long access to a range of career resources to help you continue your education and enhance your career.

The MSc Water and Wastewater Engineering course has been challenging but also stimulating and exciting. The lectures are very interactive and engaging and oftentimes, there are even external presenters including Cranfield alumni, who deliver presentations on certain topics.
The deep learning I have acquired, especially in the key principle of wastewater treatment systems, the constant opportunity to interact with experienced water professionals during classes and the site visits to UK water company facilities have helped me a lot to deepen the knowledge that I have acquired during classes.

Cranfield opened a lot of doors for me. I got my job offer with Mott MacDonald, three months away from finishing the course. I believe the experience I got from Cranfield, and especially the group project helped me.

It is the best place because the interactions between students and lecturers are superb.

Why this course?

Water and wastewater systems are under increasing strain from demographic and climatic changes. Our course will equip you with the knowledge and skills to help find sustainable solutions to those pressures and make a real difference for future generations. On this course you will:

  • Â鶹´«Ã½AV a truly interdisciplinary course, rooted in a system-level understanding of water and wastewater
  • Complete your thesis on a real-world project to suit your interests
  • Learn from internationally leading faculty who undertake cutting-edge research
  • Hear about relevant challenges (like sewage and river health) from a wide range of experts working across the sector
  • Visit active water and wastewater treatment sites to see technologies in the real world
  • Benefit from innovative, problem-oriented teaching activities
  • Develop practical skills and networking opportunities

Informed by industry

This MSc is supported by organisations from across the water sector, including water utilities, consultancies, regulators, and NGOs. They support us with guest lectures, problem-based activities, by hosting field trips (), and by sponsoring thesis projects. These links can give your career a boost by providing networking opportunities and giving you a real-world perspective on the topics discussed in the classroom. Many of our graduates have gone on to take up jobs within the organisations that participate in our course.

Course details

In this Engineering route of the MSc, students get to learn more about the engineering aspects of water and wastewater treatment systems. 

The course comprises a taught programme of of five core modules, two route modules, and one elective module. You will then go on to study a group project and an individual project.

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Course delivery

Taught modules 80 credits/800 hours, Group projects 40 credits/400 hours, Individual project 60 credits/600 hours

Group project

The group project is an applied multidisciplinary team-based activity. It provides students with the opportunity, whilst working in teams under academic supervision, to apply principles taught during modules whilst taking responsibility for project tasks. Success is dependent on the integration of various activities, working within agreed objectives, deadlines and budgets. Students submit project reports and present their findings to representatives from industry. This develops professional practice in communication skills for technical and business areas of process development. Part-time students complete a single design project individually in a field of their choice.

Recent group projects include: 

Individual project

Students select their individual project in consultation with the thesis project coordinators. This provides students with the opportunity to demonstrate independent research ability working within agreed objectives, deadlines and budgets. The project is sponsored by industry and usually includes a four-month placement with the sponsoring company. Placements previously have been offered by all ten of the UK water utilities, the leading two French utilities, as well as multinational companies and SMEs operating in the water sector. Part-time students usually undertake their individual project with their employer.

Modules

Keeping our courses up-to-date and current requires constant innovation and change. The modules we offer reflect the needs of business and industry and the research interests of our staff and, as a result, may change or be withdrawn due to research developments, legislation changes or for a variety of other reasons. Changes may also be designed to improve the student learning experience or to respond to feedback from students, external examiners, accreditation bodies and industrial advisory panels.

To give you a taster, we have listed the compulsory and elective (where applicable) modules which are currently affiliated with this course. All modules are indicative only, and may be subject to change for your year of entry.


Course modules

Compulsory modules
All the modules in the following list need to be taken as part of this course.

Global Water Sector

Aim
    The Global Water Sector module introduces students to the key players that make up the water and wastewater sector, and their roles and responsibilities, both in the UK and on the global stage. We will discuss some of the important trends that are shaping the sector’s ambitions and activities – including carbon neutrality, the need for environmental improvement, contaminants of emerging concern, sustainable financing, and public trust – and explore how these trends are affecting the development and implementation of treatment technology. This module aims to set the scene for the remainder of the course.

Water and Wastewater Treatment Principles

Aim
    This module is an introduction to key processes used in water and wastewater treatment, and the scientific principles on which they are based. We will explore the nature of contaminants in water systems, their contribution to water and wastewater quality and their treatability. At the end of this module you will be able to critically select appropriate treatment processes, based on water and wastewater quality.

Process Science for the Water Sector

Aim
    The module will equip the students with the basic scientific and engineering principles and knowledge to enable them to investigate and assess the operational performance of water and wastewater treatment process to define solutions and improvements. The principles on water chemistry, kinetics and reactor theories covered in the module will empower the students to confidently approach any design and diagnosis procedures and will form a strong basis on which students can build their ability to address the fundamental challenges for the water industry and drive innovation with a strong scientific approach.

Water and Wastewater Treatment Processes

Aim
    The module is designed to provide students with the process science and engineering knowledge necessary to be able to effectively select, design, and monitor the biological, chemical and physical treatment processes used for conventional water and wastewater treatment. On successful completion of this module a student should be able to appraise the operation of conventional treatment water and wastewater treatment processes using theoretical and empirical principles, develop the basis of design for water and wastewater treatment processes and evaluate how treatment processes can be applied for removal and processing of contaminants and waste streams.

Advanced Water and Wastewater Treatment Processes

Module Leader
  • Professor Bruce Jefferson
Aim
    The challenges that water and wastewater treatment processes need to tackle to maintain their efficacy of treatment is ever evolving and in recent times appears to be accelerating in complexity and scale. The combination of climate change, population growth, emerging chemicals and tightening regulations are compounded through greater awareness and response form the general public. In light of this it can be argued that traditional flowsheets are challenged. Consequently, change is needed, and the associated people involved (process scientists, engineers, etc) need to embrace change in terms of the technologies we use and the flowsheets that contain them. This module will help you navigate this journey and equipment them with the skills and knowledge to thrive in the delivery of solutions against such challenges and feel confident in when and how to adopt new technology.

Hydraulics and Pumping principles for Water and Wastewater

Aim
    Flowing water and hence hydraulics and pumping are essential to water and wastewater treatment processes. It is then critical for engineers involved in the design and operation of water and/or wastewater treatment plants to understand these principles. This module provides the foundation in hydraulics for flows in pipes and open channels, hydraulic structures and pumping of water and sludge with reference to water and wastewater treatment flow sheets.

Risk and Asset Management for Water and Wastewater

Aim
    This module provides you with the skills needed to undertake effective asset stewardship and related risk analysis. It provides advanced understandings of asset management principles and planning processes as well as competencies in assessing asset health, linking this to the prioritisation of maintenance, rehabilitation and replacement strategies. In addition to appreciating the regulatory and operational context for asset management in the water sector you will learn about asset condition and maintenance tools and techniques and how to select appropriate intervention strategies based on an understanding of asset health.

Elective modules
One of the modules from the following list needs to be taken as part of this course.

Nature-based Solutions Design

Module Leader
  • Dr Gabriela Dotro
Aim
    The increasing global concern for water scarcity, pollution, and the need for sustainable infrastructure calls for the importance of nature-based solutions (NBS) for water and wastewater treatment. NBS offers a paradigm shift, leveraging natural processes and ecosystems to enhance water quality, mitigate flooding, and restore ecological balance etc. To understand the roles of NBS and their functional mechanisms, learning from existing successful implementations is essential to support system design and operational guidance, allowing NBS to deliver not only regulatory standardised treatment effluent but also contribute to broader ecological benefits. This module aims to equip you with a cutting-edge education that combines theoretical knowledge with practical design skills on NBS for water and wastewater treatment.
Syllabus

    Introduction of NBS in water and wastewater:

    • Examples, trade-offs and opportunities,
    • Latest innovation sin NBS interventions,
    • Optimising resources for maximum NBS impact.

    Treatment wetlands design:

    • Wetland components and processes,
    • Sizing for sewage applications,
    • Sizing for industrial wastewater,
    • Tutorial and exercise.

    Treatment wetland implementations:

    • Ancillaries and hydraulic design,
    • Commissioning and monitoring,
    • Incorporating multiple benefits in wetland design,
    • Wetland design tutorial: multiple benefits,
    • Wetland benchmarking – building a business case,
    • Visit Cranfield experimental wetlands.

    Sustainable Drainage Systems (SuDs):

    • Introduction of SuDs,
    • SuDs design: CIRIA guidance, and SuDS in practice,
    • SuDS design equations,
    • SuDS design tutorial and exercise - Ecosystem restoration - Biodiversity net gain - Visit MK SuDS schemes.
Intended learning outcomes
  • Evaluate different nature-based solutions and their implementations for water and wastewater treatment,
  • Critically appraise the multiple benefits and evaluate the limitations and trade-offs of nature-based solutions,
  • Size Treatment Wetlands to meet specific sewage treatment targets,
  • Design sustainable drainage systems (SuDS) for water management based on guidance and best practices.

Resource Recovery for Water and Wastewater

Module Leader
  • Professor Ana Soares
Aim
    The water sector is embracing sustainable practices to effectively manage water and wastewater, aligning with circular economy principles and striving towards NET-ZERO goals while promoting resource recovery. This paradigm shift entails comprehensive, interdisciplinary strategies that prioritize not only technological advancements but also the establishment of metrics and key performance indicators. Considering regulatory frameworks and engaging local stakeholders are pivotal aspects. This module offers insights into the latest advancements in resource recovery from water, municipal, and industrial wastewater. It explores the drivers, challenges, opportunities, success stories, and tools essential for evaluating resource recovery implementation within the water sector.
Syllabus
    • Sustainable practices to manage water and wastewater.
    • Circular economy.
    • Resource recovery strategies and processes.
    • Regulatory framework around resource recovery.
    • Nutrient recovery.
    • Energy recovery/net zero
Intended learning outcomes
  • Appraise sustainable practices in managing water and wastewater, including their alignment with circular economy principles and NET-ZERO targets.
  • Derive strategies for resource recovery technologies applicable to water, municipal, and industrial wastewater treatment processes.
  • Evaluate of drivers and challenges on the adoption of resource recovery practices.
  • Assess tools and metrics to explore opportunities for resource recovery within the water sector, including potential economic, environmental, and social benefits.

Teaching team

Cranfield is recognised internationally as a centre of excellence for postgraduate courses. The Water Theme at Cranfield is the UK's largest academic group specialising in process science and technology.
 
Our MSc course is delivered by leading academics and industry practitioners, with real-world research feeding into the coursework.
 
The Course Director is Dr Irene Carra and the Admissions Tutor is Dr Emma Goslan.

Accreditation

The MSc of this course is accredited by the .

How to apply

Click on the ‘Apply now’ button below to start your online application.

See our Application guide for information on our application process and entry requirements.