• Leeds Beckett University Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • Swansea University Featured Masters Courses
  • Regent’s University London Featured Masters Courses
  • Imperial College London Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • University of York Featured Masters Courses
University of Hertfordshire Featured Masters Courses
Coventry University Featured Masters Courses
Queen Margaret University, Edinburgh Featured Masters Courses
University of Leeds Featured Masters Courses
Coventry University Featured Masters Courses
"land" AND "remediation"×
0 miles

Masters Degrees (Land Remediation)

  • "land" AND "remediation" ×
  • clear all
Showing 1 to 15 of 26
Order by 
This programme is taught at the Penryn Campus near Falmouth. Read more
This programme is taught at the Penryn Campus near Falmouth.

It is a full-time one-year programme to enable graduates in geography, earth sciences, economics and engineering to train as professional surveyors who have knowledge both of modern land surveying techniques and the principles and application of land and environmental management. Graduate destination statistics show more than 90% of students obtaining related employment.

The programme introduces and develops surveying practice through a module that stretches over both semesters. Other modules provide training in land management, planning, general management and environmental control. In Easter there is a fieldtrip where both the surveying skills and environmental/land management knowledge are put to the test as a major case-study. The final part of the programme is a dissertation that can form part of an industrial partnership. The programme is accredited by both the Royal Institute of Chartered Surveyors (RICS) and the Institute of Civil Engineering Surveyors (ICES).

Programme Structure

You can either study the course full time over a year or part-time over 3 years.

Compulsory modules

The compulsory modules can include; Professional Development; Health and Safety in the Extractive Industry; Land Surveying; Project Management; Advanced Surveying; Mine Wastes: Principles, Monitoring and Remediation; GIS For Surveyors; Law for Surveyors; Land Management; and Project and Dissertation

The modules listed here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand.

A research- and practice-led culture

We believe every student benefits from being taught by experts active in research and practice. You will discuss the very latest ideas, research discoveries and new technologies in seminars and in the field and you will become actively involved in a research project yourself. All our academic staff are active in internationally-recognised scientific research across a wide range of topics. You will also be taught by leading industry practitioners.

Read less
Our mission is to educate engineers who can design infrastructures and plan human development while balancing environmental health and the society’s need for better living conditions. Read more

Mission and goals

Our mission is to educate engineers who can design infrastructures and plan human development while balancing environmental health and the society’s need for better living conditions. The MSc in Environmental and Land Planning Engineering focuses on a broad range of interdisciplinary professional capabilities and expertise required to deal with all the issues related to a sustainable utilization of natural resources. We provide a full track in English, which offers a panoply of specialized courses and laboratories addressing all the environmental components, air, water, soil and the biota, and the impacts due to natural hazards and to human activities, as well as their mitigation. We achieve the mission through advanced scientific and technological education.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-land-planning-engineering/environmental-engineering-for-sustainability-track/

Career opportunities

Graduates are expected to be employed in land and environmental service enterprises, engineering firms for design and construction of plants for water and air emissions treatment, energy generation and waste disposal, companies for producing and managing environmental instrumentation, remote sensors and environmental monitoring systems and networks, public authorities and agencies for land planning and control.

The track in Environmental engineering for sustainability is taught in English.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Environmental_Engineering_for_Sustainability.pdf
Our mission is to educate engineers who can design infrastructures and plan human development while balancing environmental health and the society’s need for better living conditions. The MSc in Environmental and Land Planning Engineering focuses on a broad range of interdisciplinary professional capabilities and expertise required to deal with all the issues related to a sustainable utilization of natural resources. We provide a full track in English, which offers a panoply of specialized courses and laboratories addressing all the environmental components (air, water, soil and the biota) and the impacts due either to natural hazards or to human activities, as well as their mitigation. We achieve the mission through advanced scientific and technological education.
Graduates are expected to be employed in land and environmental service enterprises, engineering firms for design and construction of plants for water and air emissions treatment, energy generation and waste disposal, companies for producing and managing environmental instrumentation, remote sensors and environmental monitoring systems and networks, public authorities and agencies for land planning and control.
The track in Environmental engineering for sustainability is taught in English.

Subjects

Available courses include: chemistry for sustainability, soil remediation, engineering and process technologies for water, air and solid wastes treatment, hydrology and hydraulic engineering, ecology, energy systems technologies, environmental impact assessment and quality evaluation, environmental systems engineering and management, geotechnical and seismic engineering, water, land and soil resource management, surface and subsurface water quality modelling and evaluation.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-land-planning-engineering/environmental-engineering-for-sustainability-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-land-planning-engineering/environmental-engineering-for-sustainability-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
You look at environmental science related to pollution and remediation at UK and international level, studying hydrocarbon risk assessment and remediation, environmental analysis and EIA (environmental impact assessments). Read more
You look at environmental science related to pollution and remediation at UK and international level, studying hydrocarbon risk assessment and remediation, environmental analysis and EIA (environmental impact assessments). You look at legislation, risk and analysis.

COURSES
Semester 1
Global Soil Geography
Core Skills in Environmental Science
Environmental Pollution
Applications of GIS

Semester 2
Remediation Technology
Environmental Analysis
Environmental Impact Assessments
Land Use and the Changing Environment on Deesside

Read less
The MSc Environmental Engineering course provides highly employable graduates who will act as managers and leaders serving the environmental needs of the process industries. Read more
The MSc Environmental Engineering course provides highly employable graduates who will act as managers and leaders serving the environmental needs of the process industries.

The scale of modern industralisation has given rise to environmental problems of unprecedented complexity. This MSc examines environmental problems like toxic waste, air pollution, waste disposal, global warming, contaminated land and water. The challenge for today’s environmental engineers is to manage these problems through a high level of resource management and technological innovation.

Today’s environmental problems require innovation in improvements to manufacturing processes and in the utilisation
of natural resources. Both the assessment and management of the effects of natural and human activity on the natural and built
environment are examined in this course. The course demands a high level of resource management and is designed to enable graduates to work across the interface between engineering and the environment.

Students will develop:
a solid understanding of existing technology and its application, and an appreciation of the economic, legal, social and ethical aspects of the problems presented
skills in research, project management, problem solving and reporting
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
the ability to understand and apply the theory, method and
practice of environmental engineering
interpersonal communication and professional skill

Previous research projects have included:
assessment of energy crops for combined heat and power systems
bio-diesel process optimisation
microbial Fuel Cells
nanobots for contaminated land remediation
metal contamination of lakes near Nottingham
starch nanoparticles for water treatment
renewable energy at point of consumption

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

Read less
The UK has a significant legacy of contaminants as a consequence of a long history of industrial activity. These pollutants can pose a major risk to human health and the environment. Read more

Why take this course?

The UK has a significant legacy of contaminants as a consequence of a long history of industrial activity. These pollutants can pose a major risk to human health and the environment.

This course is designed to provide you with the particular expertise required for dealing with contaminated sites. Such expertise is essential to ensuring we maintain habitable, safe and sustainable communities.

What will I experience?

On this course you can:

Use our state-of-the-art geological and geotechnic labs for practical work
Get hands-on experience of using instruments such as GPS, Total Stations and 3D laser scanners
Be taught by recognised experts with extensive knowledge in groundwater hydrology, environmental geology and contaminated land

What opportunities might it lead to?

We will give you the knowledge and practical skills to ensure an interesting and rewarding career in the specialist area of contaminated land consultancy, regulation and remediation, both in the UK and overseas.

Here are some routes our graduates have pursued:

Environmental organisations
Geotechnical consultancies
Mining companies
Local authorities
Government agencies

Module Details

You can opt to take this course in full-time or part-time mode. The course is divided into three parts. The first two comprise the taught units of the course covering the key conceptual, institutional and applied bases of the subject. The third focuses on your dissertation.

This course covers a mixture of topics including: groundwater hydrology, geochemistry, site investigation, geotechnics and contaminated land assessment.

Here are the units you will study:

Soil Mechanics: This unit is fundamental to understanding how contaminants behave and migrate in the ground. You will gain an advanced understanding of the geo-mechanical behaviour of soils, including the description and testing of soils to UK and international standards.

Desk Studies and Ground Models: These are an integral part of any contaminated land assessment. You will have training in the development of geological ground models and geomorphological terrain models through desk studies, walk-over surveys and site investigation.

Ground Investigation Techniques: You will gain advanced knowledge of ground investigation using invasive techniques, in-situ tests and geophysical methods.

Contaminated Land Risk Assessments: You will learn key techniques for site assessment, analytical testing and risk assessment.

Field Reconnaissance and Walk-Over Survey: This unit covers techniques which are integral to the course and an essential skill for any graduate wishing to work in this area. You will have fieldwork training in techniques such as walk-over surveys combined with interpretation of remote sensing and aerial photography imagery.

Spatial Analysis and Remote Sensing: You will learn integration and analysis of spatial datasets using GIS and interpretation of aerial photography and satellite imagery - key tools for terrain evaluation.

Independent Research Project: This provides an opportunity for you to undertake an original piece of research to academic or industrial standards, typically in collaboration with research staff in the department or external industry partners. In addition to submission of a thesis report, you also present the results of your project at the annual postgraduate conference held at the end of September.

Programme Assessment

The course provides a balanced structure of lectures, workshops and practical laboratory work. You will generally be taught in small classes, providing an informal, friendly and supportive atmosphere for your studies.

Assessment is varied, aimed at developing skills relevant to a range of working environments. Here’s how we assess your work:

Poster and oral presentations
Project reports
Essays
Laboratory reports

Student Destinations

Contaminated land is listed as one of the key areas in which the UK has a skills shortage. This fact, combined with the vocational nature of this course, means that you will be in high demand from employers looking for newly qualified contaminated land specialists. You will find the majority of such roles in the environmental consultancy sector.

This course will provide you with a variety of transferable skills such as project planning, literature and data reviewing, report writing, along with the more general skills of presentation, communication and so on. It also has strong research and analytical components, ideal if you wish to pursue further research to PhD level.

We aim to provide you with as much support as possible in finding employment through close industrial contacts, careers events, recruitment fairs and individual advice.

Read less
This programme aims to introduce students to the concepts of soil for the 21st century and is suitable for students wishing to pursue a career in land-based management or environmental protection. Read more

Programme description

This programme aims to introduce students to the concepts of soil for the 21st century and is suitable for students wishing to pursue a career in land-based management or environmental protection.

Soils underpin the sustainability of terrestrial ecosystems and are key to food production. Soils form the basis of all agricultural production, but they also store water, mediate the impact of pollutants, provide biological habitats, have an impact on the accumulation of greenhouse gases in our atmosphere, are involved in dealing with society’s waste, are a source of extractable minerals and provide the foundations for the housing and roads on which society depends.

You will learn about soil function and management, and soil classification, assessment and analysis, with a strong emphasis on practical skills. You will gain expertise in the relationship between soil and sustainable approaches to land resource use.

This programme is run in collaboration with Scotland’s Rural College (SRUC).

Programme structure

This programme involves two semesters of compulsory and option taught courses followed by a period of individual dissertation project work.

Compulsory courses typically include*:
•Soil Protection and Management
•Soils Science Concepts and Application
•Dissertation

Option courses:

In consultation with the Programme Director, you will choose from a range of optional courses*. We particularly recommend:
•Analysing the Environment
•Analysing the Environment Study Tour
•Culture, Ethics & Environment
•Ecosystem Dynamics and Functions
•Human Dimensions of Environmental Change and Sustainability
•International Development in a Changing World
•Principles of Environmental Sustainability
•Principles of GIS
•Project Appraisal
•Atmospheric Quality and Global Change
•Frameworks to Assess Food Security
•Integrated Resource Management
•Spatial Modelling
•Ecosystem Values and Management
•Environmental Impact Assessment
•Land Use/Environmental Interactions
•Participation in Policy and Planning
•Sustainability of Food Production
•Interrelationships in Food Systems

*Please note: courses are offered subject to timetabling and availability and are subject to change each year.

Field trip

This programme typically includes a field trip. This integral, week-long study tour lets you refresh skills learned on the programme and develop new tools and techniques, useful during the dissertation process. Past study tours have taken place in Mende, France. In addition to the formal taught component, students also had the opportunity to go rafting and visit the Aven Armand caves.

There may also be a short tour during induction week, to give students a chance to get to know each other..

Learning outcomes

Students will:

•gain a knowledge and understanding of the relationship between soils and sustainable land management
•gain an understanding of soil sampling and analysis, interpretation and reporting
•be able to assess soil management issues and develop improved management plans
•understand the function of soils in relation to sustainable land use and societal needs

Career opportunities

A recent report by the British Society of Soil Science (BSSS) identified soil science as an area in which there are critical skills shortages, meaning graduates will be in high demand.

Soil scientists are employed in a broad range of vocations including environmental consultancy, research, overseas development, environmental impact assessment and analysis, site reclamation and remediation, and conservation as well as advising on government policy, archaeological excavations and laboratory analyses, forensics, and landscape design.

Student experience

Would you like to know what it’s really like to study at the School of GeoSciences?

Visit our student experience blog where you can find articles, advice, videos and ask current students your questions.
https://edingeoscistudents.wordpress.com/

Read less
This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Read more
This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Water, Waste and Environmental Engineering has been traditionally referred to as public health engineering in the United Kingdom. In this postgraduate course, the technical aspects of both natural and engineering environmental systems will be covered. There will be broad interdisciplinary subjects synthesizing knowledge from a wide spectrum of science and engineering, expanding the content of public health engineering, which in the UK has traditionally been responsible for developing the infrastructure for managing water and waste.

Students will develop engineering skills and be able to design, develop and apply concepts for water and waste as a resource based on environmental sensitivity and be competent in planning, modelling, design, construction, operations, maintenance and control of both engineered and natural water and earth resources.

Students who select this postgraduate programme will gain a skill set that will enable them to progress in the fields of:

- Environmental engineering
- Desalination and water reuse
- Water resources engineering
- Hydraulics and hydrology
- Environmental fluid hydraulics
- Environmental remediation
- Waste management
- Other specialities valued in both the private and public sectors.

The MSc in Water, Waste and Environmental Engineering will incorporate solid waste management, contaminated land treatment and the use of geographic information systems (GIS) with emphasis on management of the earth's resources.

The programme will explain the relationship between different earth resources including hydrosystems, both 'engineered' - hydro-power plants, water/wastewater treatment plants, sewers - and 'natural' - rivers, lakes, wetlands, irrigation districts, reservoirs etc., solid wastes, brownfield land, and geo-derived primary resources and their sustainable management.

The aims of the programme are:

- To show you how to design, implement and manage sustainable, risk-reduced eco-friendly solutions for reducing the environmental impact of exploitation of earth's resources in the context of environmental engineering-related issues facing global societies

- To provide you with the skills to further your careers in these areas

- To support you in understanding the innovative and pioneering approaches in this field and to be able to apply them to the solution of real-world problems in developing novel industrially-relevant solutions.

Visit the website http://www2.gre.ac.uk/study/courses/pg/enggen/wwee

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Information Technologies for Environmental Engineering (15 credits)
Research, Planning and Communication (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Information Technologies for Environmental Engineering (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)

-Year 2:
Students are required to study the following compulsory courses.

Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Research, Planning and Communication (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Teaching and learning

The number of contact hours (e.g. lectures, seminars and feedback on assignments) per module/course ranges from 50-75 hours for the one year full time programme or roughly equivalent to four hours per week per module. The expected self-study time is approximately 80-90 hours per module per year (roughly equivalent to four hours per week per module).

You will be taught by academics with a range of industrial and academia experience for each module.

Assessment

Project work, assignments and laboratory exercises in addition to substantial written examination of course materials will occur in most modules. The Environmental Engineering Research Project will require submission of a substantial final report/dissertation. Assessment of this module will involve participation in a poster and seminar presentation and a final oral examination.

Professional recognition

Accreditation will be sought from the Chartered Institution of Water and Environmental Management (CIWEM) and The Joint Board of Moderators (JBM) including the Institution of Civil Engineers, The Institution of Structural Engineers, the Chartered Institution of Highways and Transportation and Institute of Highway Engineers.

Career options

Postgraduate students from this programme will find such employment opportunities as engineers, scientist and technical managers in the private sector (engineering design firms, engineering consultancy, project management, risk management and waste management), in the public sector (environmental protection engineering, regulations and standards, local government) and in non-governmental sectors (NGOs, environmental advocacy) or may wish to pursue further qualifications such as a PhD within the Faculty of Engineering and Science at the University of Greenwich to become even more specialised. Employers of environmental engineers include engineering consultancies (such as AECOM, Atkins, Mott MacDonald Group, Hyder), government agencies (such as Environment Agency, Scottish Environment Protection Agency) and NGOs (such as Oxfam, Engineers without Boarders, Water Aid).

Careers and employability

FACULTY OF ENGINEERING & SCIENCE
We work with employers to ensure our degrees provide students with the skills and knowledge they need to succeed in the world of work. They also provide a range of work experience opportunities for undergraduates in areas such as civil engineering, manufacturing and business information technology.

Students also benefit from the services provided by the university’s Guidance and Employability Team, including ‘JobShop’, mentoring, volunteering and the student ambassador scheme.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

Read less
This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste. Read more
This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste.

It has been designed with industry advice to enable good science and engineering graduates begin and advance successful careers in the environmental sector, and pursue postgraduate scientific research. The MSc is delivered in first-class teaching and research facilities by a dedicated team of internationally renowned environmental scientists, and presents considerable interaction with environmental consultancies and engineers, industry, local and regulatory authorities, and research institutes.

During 2007-2011, the course was supported by 6 NERC studentships, the most awarded annually to an environmental MSc. Students on the course have won the most EMpower research projects funded by companies within the nuclear industry, and since 2008, a Prize for Best Performance Overall has been awarded annually by Arup, a global environmental engineering and consultancy company.

See the website https://www.royalholloway.ac.uk/earthsciences/coursefinder/mscenvironmentaldiagnosismanagement.aspx

Why choose this course?

- The quality of teaching and learning on the course is enhanced considerably by significant professional networking and interaction with leading experts from environmental consultants and engineers, industry, local and regulatory authorities, and universities and research institutes; who present seminars, host study visits, co-supervise research projects, and act as an advisory panel.

- Graduates of the course are skilled and knowledgeable scientists with excellent employment prospects within the environmental sector, particularly as environmental consultants and engineers, in local and regulatory authorities, industry, charitable trusts, and research institutes and universities.

- In the 2008 Research Assessment Exercise (RAE), the Department’s research was ranked equal 6th in the UK with 70% rated as world-leading or internationally excellent in terms of originality, significance and rigour.

Course content and structure

You will study seven taught modules, three case studies and complete an Independent Research Project:

- Communication & Co-operation Skills
Provides practical training in written and verbal communication media; project, team and time management; role playing in environmental impact assessment; careers advice and a mock job interview.

- Environmental Inorganic Analysis
A practical laboratory and field-work based introduction to quality assured sampling strategies, preparation processes and analytical methods for heavy metals in soils, surface waters, and vegetation.

- Diagnostic & Management Tools
Provides practical computer-based training in statistical analysis of environmental data, geographical information systems, and environmental risk assessment.

- Environmental Organic Chemistry Pathways Toxicology
Comprises physical and chemical properties, transport, fate and distribution, and toxicology of organic compounds in the environment.

- Contaminated Land Case Study
A practical laboratory and field-work based human health risk assessment of pollutant linkages at a former gravel extraction and landfill site. It comprises desk-top study, site investigation and sampling, laboratory analysis, data interpretation, quantitative risk assessment, and remediation options.

- Water Quality: Diagnosis & Management
A practical laboratory and field-work based introduction to aquatic science, hydrogeology, treatment of water and wastewater, and chemical, biological and physical monitoring of water quality. Includes a study visit to a global manufacturer of pesticides and herbicides.

- River Thames Basin Case Study
A combination of fieldwork, laboratory work and desk-top study to diagnose water quality in chemical and ecological terms, to identify industrial and agricultural pollutant linkages, and to determine environmental, ecological and health impacts.

- Air Pollution: Monitoring, Impacts & Management
Covers: sources, sinks, dispersion, conversion, monitoring, impacts and management of air pollutants with study visits to a local authority and a government research institute.

- Royal Holloway Campus Air Quality Case Study
Involves a consultancy company-style investigation of ambient and indoor air quality within the confines of RHUL campus; and combines desk-top research with practical fieldwork and laboratory analysis.

- Waste Management & Utilisation
Considers municipal, industrial and radioactive waste management options, with study visits to a landfill site, a waste incinerator, composting facility, recycling centre and nuclear power station.

- Independent Research Project
Consists of a four-month, independent scientific investigation, usually in collaboration with environmental consultants and engineers, local and regulatory authorities, industry, research institutes, and universities. Projects may comprise a desk-top study or practical laboratory and field investigation, they may be funded, and often lead to employment or to PhD research. Final results are presented at the Research Project Symposium to an audience from within the environmental sector

On completion of the course graduates will have acquired the experience, knowledge, and critical understanding to enable them to:

- Conduct themselves as professional environmental research scientists, consultants, and managers, convey in a professional manner, scientific, technical and managerial information, and manage projects and resources efficiently

- Apply quality assured sampling strategies, preparation procedures and analytical systems to quantify health risks posed by inorganic and organic pollutant linkages in soils, waters and air

- Apply statistical analysis, geographical information systems, and environmental impact and risk assessment to the interpretation of environmental data

- Appreciate the importance and impacts of hydro-geological, and bio- and physico-chemical processes on the treatment of water and wastewater, and on the quality of groundwater and aquatic ecosystems

- Appreciate the emissions, dispersion, conversion, and monitoring of natural and man-made gaseous and particulate air pollutants, their impacts on climate change, human health and vegetation, and management on local, regional and global scales

- Appreciate the prevention, re-use, recycling, recovery, disposal and utilisation of municipal and industrial waste and the management of nuclear waste within the constraints of national and international legislation

- Manage an independent environmental science research project, often with professional collaboration, and of significant value to their career development.

Assessment

- Written examinations test understanding of the principles and concepts taught in the modules and case studies, and the ability to integrate and apply them to environmental diagnosis and management.

- Assessment of module work and practical computing, laboratory and fieldwork evaluates critical understanding of the environmental science taught, and mastery of producing quality assured data, and its analysis, interpretation, presentation and reporting.

- Assessment also reflects the ability to work independently and in teams, and to learn during study visits.

- Assessment of research projects is based on the ability to manage and report on an original piece of independent scientific work.

- All assessed work has significant confidential written and verbal feedback.

Employability & career opportunities

94% of the graduates of the MSc from 2008 to 2013 either successfully secured first-destination employment as international environmental consultants and engineers, in industry, local and regulatory authorities and charitable trusts, or are conducting postgraduate research within international research institutes and universities.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

Read less
*This course is open to applications for entry from September 2016. This course is accredited by the Institution of Environmental Sciences. Read more
*This course is open to applications for entry from September 2016

Why choose this course?

This course is accredited by the Institution of Environmental Sciences
Gain an in-depth and holistic understanding and knowledge of contaminated land and freshwater environments, as well as strategies to prevent, manage, and control contamination of these environments
You'll have the opportunity to undertake a work placement to experience working with employers in a range of settings, from practical-based training to practitioner-based learning
This course will prepare you to apply the knowledge gained to real world situations and critically evaluate the outcomes to make strategic decisions
This course provides study aspects that develop an insight and skills for professionals in the government, industry, consultancy, academia, and other statutory bodies within the UK and overseas to evaluate contaminated land and freshwater management policies and strategies to achieve effective governance of these environments
We offer a learning approach suitable for recent graduates seeking a full-time study approach, and mature students in current employment a part-time route to suit their time commitments.

About this course

This is a creative programme that addresses human intervention strategies towards problem-solving in the real world, on examples such as flood defence, through the processes involved in decision-making at local authorities. This will be achieved by linking with external organisations to include practical experience through field and laboratory work, and practitioner training through placements.
Aspects of contaminated land will include legislation and regulation, identification, analysis and remediation, and human health exposure assessment through a case study approach using research informed teaching, as well as practitioner training. Within the water aspects of our course, you will focus on the environmental monitoring and assessment of freshwater, legislation and regulatory aspects, management of freshwater towards prevention and control of contamination, drinking water quality and human health, and a focus on flood defence.

A number of factors ensure you are prepared for the workforce you will seek to join on completion of the programme; these include placement experience with employers, and field and laboratory skills. Additionally, the course is currently undergoing accreditation with the Institution of Environmental Sciences (IES), meaning students could be studying on a professional body accredited course with free student membership of the professional body and eligibility to apply for higher levels of membership upon completion.

Face-to-face delivery of modules and placements will aid your development of transferrable soft leadership and management, and communication skills required to meet the demands of current employers. Most of our student employment will be within collaborative and multi-disciplinary teams. Moreover, you will be supported in your PDP through reflection upon your own learning, performance and achievement, and planning for your personal, educational, and career development.

Read less
Geographic Information Science and Environmental Management - Processing and interpreting complex multi-dimensional spatial datasets is increasingly in demand for the successful management of both built and natural environments. Read more
Geographic Information Science and Environmental Management - Processing and interpreting complex multi-dimensional spatial datasets is increasingly in demand for the successful management of both built and natural environments.

Geographic Information Science (GIS) involves the acquisition, visualisation and analysis of geographical data, including from ecological systems, landforms, soils, water, land use, economic activity and population demographics. When combined with environmental management, it offers a powerful tool for integrating our understanding of environmental processes with strategic planning approaches to resolve problems.

Five great reasons to study Geographic Information Science

1. GIS is an ever evolving technology and offers opportunities at the forefront of innovation. GIS provides the foundation for Google Earth and other similar technologies...need I say more.

2. GIS has become core business in most industries and government sectors including: agriculture, forestry and fisheries; mining, and oil and gas; utilities; waste management and remediation services; construction; educational services; manufacturing; health care and social assistance; wholesale and retail trade; transportation and warehousing; real estate; planning ; international and domestic aid; emergency management; the military and many others. If you are a Geographer or think spatially and have interests in any number of fields, Geographic Information Science is for you.

3. Knowledge in Geographic Information Systems and spatial analysis are desirable skills in many disciplines which set you apart from other job candidates and provide for greater employability. In addition, GIS has been cited as one of the 12 'high-growth' industries worldwide.

4. GIS saves lives! Over the last decade, GIS technology helped survivors in numerous natural disasters, including the Japan tsunami, Hurricane Sandy, the Haitian earthquake, Boxing Day tsunami, and Hurricane Katrina. It has become increasingly clear that natural disasters will not stop, but educated GIS professionals have an increasing role to play in disaster management.

5. Marco Polo, Claudius Ptolemy, Alexander von Humboldt, Alfred Russel Wallace, Eratosthenes, Colonel Sir George Everest, and David Livingstone were all Geographers. Their discoveries would have happened more quickly with the availability of GIS technologies.

Career opportunities

One of the fastest growing areas of demand within the environmental sciences is for professionals with expertise in Geographical Information Science and how this can be applied to environmental management. Employers include private consultancies, environmental groups, and government agencies responsible for water, land use, coastal and marine environments, agriculture, mining and urban planning.

Read less
This course focuses on the physical processes that generate natural hazards through an advanced understanding of geological and environmental processes. Read more

Why take this course?

This course focuses on the physical processes that generate natural hazards through an advanced understanding of geological and environmental processes.

You will be fully trained by internationally recognised experts in hazard identification, terrain evaluation techniques as well as hazard modelling and risk assessment techniques. Providing you with the essential skills to monitor, warn and help control the consequences of natural hazards.

What opportunities might it lead to?

This course is accredited by the Geological Society of London. It offers advanced professional and scientific training providing an accelerated route for you to attain Chartered Status, such as Chartered Geologist (CGeol) and Chartered Scientist (CSci) on graduation.

Here are some routes our graduates have pursued:

Aid organisations
Environmental organisations
Offshore work
Civil sector roles
Mining
Insurance companies

Module Details

You can opt to take this course in full-time or part-time mode.

The course is divided into two parts. The first part comprises the lecture, workshop, practical and field work elements of the course, followed by a five-month independent research project. The course is a mixture of taught units and research project covering topics including site investigation, hazard modelling and mapping, soil mechanics and rock mechanics, contaminated land, flooding and slope stability.

Here are the units you will study:

Natural Hazard Processes: The topic of this unit forms the backbone of the course and give you an advanced knowledge of a broad range of geological and environmental hazards, including floods, landslides, collapsible ground, volcanoes, earthquakes, tsunamis, hydro-meteorological and anthropogenic hazards. External speakers are used to provide insights and expertise from an industry, regulatory and research perspective.

Numerical Hazard Modelling and Simulation: This forms an important part of the course, whereby you are trained in the application of computer models to the simulation of a range of geological and environmental hazards. You will develop skills in computer programming languages and use them to develop numerical models that are then used to simulate different natural hazard scenarios.

Catastrophe Modelling: On this unit you will cover the application of natural hazard modelling to better understand the insurance sector exposure to a range of geological and environmental hazards. It includes external speakers and sessions on the application of models for this type of catastrophe modelling.

Volcanology and Seismology: You will gain an in-depth knowledge of the nature of volcanism and associated hazards and seismology, associated seismo-tectonics and earthquake hazards. This unit is underpinned by a residential field course in the Mediterranean region that examines the field expression of volcanic, seismic and other natural hazards.

Flooding and Hydrological Hazards: These are a significant global problem that affect urban environments, one that is likely to increase with climate change. This unit will give you an in-depth background to these hazards and opportunities to simulate flooding in order to model the flood hazard and calculate the risk.

Hazard and Risk Assessment: This unit gives you the chance to study the techniques that are employed once a hazard has been identified and its likely impact needs to be measured. You will have advanced training in the application of qualitative and quantitative approaches to hazard and risk assessment and their use in the study of different natural hazards.

Field Reconnaissance and Geomorphological Mapping: These techniques are integral to the course and an essential skill for any graduate wishing to work in this area of natural hazard assessment. On this unit you will have fieldwork training in hazard recognition using techniques such as geomorphological mapping and walk-over surveys, combined with interpretation of remote sensing and aerial photography imagery.

Spatial Analysis and Remote Sensing: You will learn how to acquire and interpret aerial photography and satellite imagery, and the integration and analysis of spatial datasets using GIS – all key tools for hazard specialists.

Geo-mechanical Behaviour of Earth Materials: You will train in geotechnical testing and description of soils and rocks to the British and international standards used by industry.

Landslides and Slope Instability: This unit will give you an advanced understanding of landslide systems, types of slides in soils and rocks and methods for identification and numerical analysis.

Impacts and Remediation of Natural Hazards: You will cover a growing area of study, including the impact of hazardous events on society and the environment, and potential mitigation and remediation methods that can be employed.

Independent Research Project: This provides you with an opportunity to undertake an original piece of research to academic or industrial standards, typically in collaboration with research staff in the department or external industry partners. In addition to submission of a thesis report, you also present the results of your project at the annual postgraduate conference held at the end of September.

Programme Assessment

The course provides a balanced structure of lectures, seminars, tutorials and workshops. You will learn through hands-on practical sessions designed to give you the skills in laboratory, computer and field techniques. The course also includes extensive field work designed to provide field mapping and data collection skills.

Assessment is varied, aimed at developing skills relevant to a range of working environments. Here’s how we assess your work:

Poster and oral presentations
Project reports
Literature reviews
Lab reports
Essays

Student Destinations

This course provides vocational skills designed to enable you to enter this specialist environmental field. These skills include field mapping, report writing, meeting deadlines, team working, presentation skills, advanced data modelling and communication.

You will be fully equipped to gain employment in the insurance industry, government agencies and specialist geoscience companies, all of which are tasked with identifying and dealing with natural hazards. Previous destinations of our graduates have included major re-insurance companies, geological and geotechnical consultancies, local government and government agencies.

It also has strong research and analytical components, ideal if you wish to pursue further research to PhD level.

We aim to provide you with as much support as possible in finding employment through close industrial contacts, careers events, recruitment fairs and individual advice.

Read less
You learn about soil science, sustainability, food security, GIS, and land use with intensive laboratory analysis from one of the top centres in the world for soil science. Read more
You learn about soil science, sustainability, food security, GIS, and land use with intensive laboratory analysis from one of the top centres in the world for soil science.

COURSES
Semester 1
Core Skills in Environmental Science
Global Soil Geography
Soils for Food Security
Applications for GIS

Semester 2
Environmental Analysis
Land Use and the Changing Environment on Deesside
Optional
Environmental Impact Assessment
Remediation Technology
Catchment Management
Ecological and Environmental Modelling

Semester 3
Project in Soil Science

Read less
The MSc in environmental health sciences has been designed to allow graduates from a range of science and engineering disciplines to develop and extend knowledge in risk-based assessment and management of environmental influences on human health. Read more

Why this course?

The MSc in environmental health sciences has been designed to allow graduates from a range of science and engineering disciplines to develop and extend knowledge in risk-based assessment and management of environmental influences on human health.

Environmental health is the assessment and management of environmental influences on human health. This includes the study of:
- environmental protection including control of air, water and land pollution
- food safety and hygiene including production, distribution and fitness for human consumption
- occupational health and safety including investigation and control of work-related accidents and ill health
- the built environment including homes, workplaces and public spaces

Environmental health work is important and highly worthwhile and many of our students are motivated by a desire to directly improve living and working conditions for a wide range of people.

You'll develop expertise in current methods for examining factors that affect human health, assessing and managing the risks involved, and meeting the challenges resulting from changes in the interaction between people and the environment.

The wide scope of environmental health sciences and the corresponding breadth of the degree reflect rapid technological progress. Environmental impact assessment, sustainable development, air, water and noise pollution are increasingly important and there is a pressing need for graduates with skills in these disciplines.

This course also provides an emphasis on teaching subjects that are relevant to contemporary problems faced by communities, government, industry and commercial organisations.

For example, professionals from outside Strathclyde work together with academic staff and students in the teaching of case studies of outbreaks of water-borne and food-borne diseases and also in urban and industrial air quality management.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/environmentalhealthsciences/

You’ll study

Teaching is based on a core of conventional lectures and tutorials, complemented by group projects, laboratory classes, student-led seminars and fieldwork. The programme can be studied over one year full-time, two years part-time or up to five years through Open Access.

On the full-time programme, you’ll follow a core curriculum of eight classes and four optional class. Each class is taught for two to three hours per week over eight to 12 weeks.

Following successful completion of the taught component, you’ll undertake a dissertation from June to August.

Facilities

Our laboratory facilities are well-equipped for a wide range of chemical and biological measurements. High-technological instrumentation and space are available to investigate:
- marine and freshwater quality
- air quality
- solid and hazardous wastes
- environmental microbiology

Teaching staff

The course is delivered by staff from the Department of Civil & Environmental Engineering. A brief profile of some members of the academic team is provided below:
- Dr Iain Beverland is the programme manager of the MSc in Environmental Health Sciences. He has research & teaching interests in the areas of air pollution control, environmental epidemiology, exposure assessment, & public/environmental health. Current research includes study of the effects of exposure to air pollution on human health, with a focus on traffic-related air pollution in urban areas.

- Dr Tara K Beattie has expertise in the field of public health and the management of water and solid waste. Her research interests include free-living protozoa and their potential to cause human disease.

- Dr Raymond Wong has research and teaching interests in the areas of food laws (EU and UK), policies and compliance; food poisoning, contamination and prevention; and food safety management systems.

- Dr Christine Switzer specialises in contaminant fate, transport and remediation with emphases on non-aqueous phase liquids and aggressive remediation technologies.

Additional information

Staff within the Department of Civil & Environmental Engineering have engaged with developing Environmental Health training in Africa for almost 20 years.

Dr Tracy Morse, a graduate from the BSc (Hons) Environmental Health programme, was a recent winner of the title Strathclyder of the Year. Dr Morse won the title for her outstanding work as Project Manager of the University's Scotland Chikwawa Health Initiative. This is a scheme funded by the Scottish Government to improve maternal health and drive down infant mortality rates in four villages in Southern Malawi. Dr Morse is the Malawi-based coordinator of all the activities of the University's Malawi Millennium Project.

Open Access

Home students can also choose to study through Open Access. This is initially a non-graduating route. You register for one module at a time and have the option to build up credits eventually leading to a Postgraduate Certificate, Postgraduate Diploma or MSc. You can take up to five years to achieve the qualification.

This option is popular with students in employment, who may wish to undertake modules for Continuing Professional Development purposes.

Home students who do not meet the normal MSc entry requirements for this programme are welcome to apply through the Open Access route instead.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Teaching is based around lectures and tutorials. You’ll also take part in group projects, laboratory classes, student-led seminars and fieldwork.
Throughout the course there is a strong emphasis on teaching that is relevant to contemporary problems faced by communities, government, industry and commercial organisations. For example, external professionals worked together with academic staff and students in the teaching of case studies of outbreaks of water-borne and food-borne diseases.

Assessment

You’ll present work in written, verbal and graphical forms including field and laboratory reports, portfolios, posters and oral presentations.

Careers

Graduates in environmental health sciences are well prepared for a wide range of professions that require intellectual flexibility and analytical skill.

Many of our graduates have highly successful careers in environmental regulation, government departments, environmental consultancy, health and safety management, food industry, public water utilities, and waste management.

There is increasing recognition by employers in the private sector that graduates in environmental health have skills and backgrounds that are well suited to management roles in a range of related business activities, including the specialist field of corporate social responsibility.

Employers of Strathclyde Environmental Health graduates include:
AECOM; ACS Physical Risk Control Ltd; British Army; British Petroleum; Glasgow Caledonian University; GlaxoSmithKline plc; Health Protection Scotland; IBI Group Inc; International Atomic Energy Agency; Institute of Occupational Medicine; Malaysian Government; Maltese Government; Swaziland Department of Health; Logica plc; Malawi Government; National Health Service in Scotland; Ricardo AEA Ltd; Royal Bank of Scotland; Royal Environmental Health Institute of Scotland; Royal Navy; RPS Group Plc; Scottish Environmental Protection Agency; Scottish Government; UK Meteorological Office; University of Edinburgh; University of Glasgow; University of Strathclyde; World Health Organisation.

The MSc Environmental Health Sciences programme is not a pre-training programme for students wishing to become a local government Environmental Health Officer in Scotland through the Royal Environmental Health Institute of Scotland (REHIS) scheme of professional training.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

Read less
The Master’s programme in Earth Surface and Water involves the study of natural and human-induced physical and geochemical processes, patterns, and dynamics of the Earth’s continental and coastal systems. Read more

EXPLORE PROCESSES AT OR NEAR THE EARTH'S SURFACE

The Master’s programme in Earth Surface and Water involves the study of natural and human-induced physical and geochemical processes, patterns, and dynamics of the Earth’s continental and coastal systems. This two-year programme provides you with knowledge that is essential to manage the planet sustainably, guarantee the availability of resources for future generations, and understand and avert natural hazards.

The main subject areas you will study consist of the dynamics of coastal and river systems, (geo-)hydrological processes, groundwater remediation, land degradation in dry lands and mountainous regions, natural hazards, and delta evolution on centennial and longer time scales.

Tracks

You can choose one of four tracks based on your interests in the field:

-Geohazards and Earth Observation: Land-degradation processes and natural hazards in and on the Earth's surface;

-Coastal Dynamics and Fluvial Systems: Natural and human-induces processes, patterns, and products in the world's coasts and
rivers;

-Hydrology: Movement, distribution, and quality of water on Earth;

-Environmental Geochemistry: Processes that control the functioning of natural environments at the Earth's surface.

The Earth Surface and Water programme trains students to quantitatively study the natural and human-induced physical and chemical processes, patterns, and dynamics of Earth’s continental and coastal systems as well as their responses to global change. Students explore and understand the modelling capabilities of the past, present, and future as well as the evolution of Earth’s environment, including human impact on this evolution.

Read less
Landscape architecture requires an understanding of people, land and the fit between them. Using creativity and innovation, Landscape Architects aim to meet the needs of people while improving the environment. Read more
Landscape architecture requires an understanding of people, land and the fit between them. Using creativity and innovation, Landscape Architects aim to meet the needs of people while improving the environment. They design memorable places that are attractive, functional and sustainable and that affect the way our cities, suburbs, rural and wilderness areas are planned, designed and managed. If you have creative abilities and are interested in problem-solving and communication, then consider studying landscape architecture at the University of Guelph.

The fully accredited four-year (8 semester) Bachelor of Landscape Architecture program and the three-year (6 semester) Master of Landscape Architecture program meet the educational requirements for entry into the professional associations of landscape architects across Canada, North America and abroad.

Graduates from our programs become licensed professionals and have exciting careers in the public, private and academic sectors, within Canada and around the world.

Landscape Architecture Mission Statement

To excel at comprehensive and evidence-based education, innovation, and scholarship in the art and science of landscape architecture and to prepare graduates to lead professional practice into the future.

Master of Landscape Architecture

Landscape architecture is a diverse and rewarding design profession. Landscape Architects play an important role in shaping our environment, working in collaboration with other designers, scientists and the public. As a Landscape Architect, you'll be involved in conservation, design and management of landscapes from the scale of individual sites to entire communities and regions.

Landscape Architects are guided by the ideals of sustaining resources for future generations, accommodating human use and enjoyment, and enhancing aesthetic quality in the environment. As professionals, we serve the needs of society and individual clients through public, private and academic practice.

Students in the MLA program undertake design projects and theses focused on sustainable communities, urban design, national parks and conservation areas, ecological restoration, golf courses and waterfronts, urban parks, plazas and districts, community design, therapeutic landscapes, heritage conservation, land reclamation and remediation, and tourism planning and design.

Read less

Show 10 15 30 per page


Share this page:

Cookie Policy    X