detail

Dip (PD) Environmental Engineering

Academic Year 2016/17

A programme specification is required for any programme on which a student may be registered. All programmes of the University are subject to the University's Quality Assurance and Enhancement processes as set out in the DASA Policies and Procedures Manual.

Programme Title

Dip (PD) Environmental Engineering

Final Award
(exit route if applicable for Postgraduate Taught Programmes)

Postgraduate Diploma

Programme Code

CIV-PD-EE

UCAS Code

JACS Code

H220 (DESCR) 100

Criteria for Admissions

Entry standards are comparable to those in other comparable universities

- For Pg Dip, minimum entry requirement is a 2(ii) UK Honours-equivalent first degree in a relevant engineering/scientific discipline with sufficient mathematical background in their training. Where sufficient mathematical background is not demonstrated, the PgDip pathway is offered for a 2(i).

- For international candidates, at least a British Council IELTS qualification scored at a standard of 6.5 (with a minimum of 5.5 in each element).

- The University operates a Recognition of Prior Learning, including Prior Experiential Learning (RPEL). This may include typically three or more years of prior relevant work or research experience. The Admissions Process may consider individual applicants’ claims for RPEL in line with the University’s RPL Policy, as available at as outlined at: http://www.qub.ac.uk/directorates/AcademicAffairs/ProceduresforRecognitionofPriorLearningRPL/

ATAS Clearance Required

No

Health Check Required

No

Portfolio Required

Interview Required

Mode of Study

Full Time

Type of Programme

Postgraduate

Length of Programme

9 Months

Total Credits for Programme

120

Exit Awards available

INSTITUTE INFORMATION

Awarding Institution/Body

Queen's University Belfast

Teaching Institution

Queen's University Belfast

School/Department

Natural and Built Environment

Framework for Higher Education Qualification Level 
http://www.qaa.ac.uk/publications/information-and-guidance

Level 7

QAA Benchmark Group
http://www.qaa.ac.uk/assuring-standards-and-quality/the-quality-code/subject-benchmark-statements

Engineering (2015)

Accreditations (PSRB)

Date of most recent Accreditation Visit

External Examiner Name:

External Examiner Institution/Organisation

Professor John Bruen

University College Dublin

REGULATION INFORMATION

Does the Programme have any approved exemptions from the University General Regulations
(Please see General Regulations)

N/A

Programme Specific Regulations

Students must pass all taught modules of the programme to be eligible for the award of the Postgraduate Diploma.

Students who successfully complete the taught programme may be invited to transfer to the MSc Programme.

Students with protected characteristics

The programme includes a variety of site/field visits as part of individual taught modules. In planning and completing these visits, the programme endeavours to make relevant provision for students with protected characteristics to participate in the respective activity.

Are students subject to Fitness to Practise Regulations

(Please see General Regulations)

No

EDUCATIONAL AIMS OF PROGRAMME

To develop the intellectual, practical, and professional skills of the learner in the critical acquisition, analysis, interpretation and understanding of environmental engineering principles and issues in preparation for:- (i) a career in the environmental, consultancy, regulatory, management, and engineering industry, (ii) a position of leadership early in that career, (iii) further study, (iv) life-long learning and an appreciation of the value of Environmental Engineering to a sustainable society.

To develop critical and analytical problem solving skills across a broad range of subjects and transferable skills that relate to literacy, numeracy, computing, team-work, group work, and personal presentations and interactions to prepare graduates for more general employment.

To introduce key concepts of sustainability, sustainable development, and risk-based approaches to the Environment and Engineering.

LEARNING OUTCOMES

Learning Outcomes: Cognitive Skills

On the completion of this course successful students will be able to:

Students’ intellectual skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Teaching/Learning Methods and Strategies

Students’ intellectual skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Assessment is made using unseen written examinations, coursework, individual and group presentation exercises.

Learning Outcomes: Transferable Skills

On the completion of this course successful students will be able to:

Competent in using Information Technology and computer skills eg (WP, www, spreadsheets, specialist packages, modelling software).

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

Capacity to learn.

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

Ability to apply transferable skills.

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

Able to work in a team and understand professional responsibilities.

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

Able to exercise independent judgement, autonomy, and personal responsibility in addressing potentially complex situations in professional or equivalent environments.

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

Learning Outcomes: Knowledge & Understanding

On the completion of this course successful students will be able to:

Designed for graduates in specialist areas of engineering, science and agriculture, who wish to broaden and focus their knowledge in the areas of hydrogeology, contaminated land and remediation, landfills and regulatory controls

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

Systematic understanding of Environmental Engineering terms, principles, and critical awareness of current problems and issues

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

Computer applications in environmental analysis, modelling and interpretation

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

Relevant mathematics, environmental science, and engineering technologies

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

The role of the engineer in society as regards sustainable development and sustainability issues for Environmental Engineering.

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

The role of the engineer in protecting the environment from man’s activities, protecting man from the adverse effects of the environment, and remediating/enhancing the environment for man’s well-being.

Teaching/Learning Methods and Strategies

Students’ knowledge & understanding are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ acquisition of core knowledge and understanding is achieved primarily through independent study supported by lectures, tutorials, laboratory classes and group work.

Assessment is made using unseen written examinations, coursework, and in oral presentations by both individuals and project groups.

Learning Outcomes: Subject Specific

On the completion of this course successful students will be able to:

Apply industry-standard software (e.g. MODFLOW, ArcGIS) to a range of environmental impact problems.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Prepare descriptive and interpretative technical reports.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Use equipment and instruments competently and safely.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Select appropriate risk-based prevention strategies and remediation options.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Plan appropriate site investigation and characterisation.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Understand the role of other professionals.

Teaching/Learning Methods and Strategies

Students’ subject specific skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Student’s practical skills are developed through lectures, workshops, laboratory classes, group exercises and individual project work. Assessment is made primarily using coursework.

Learning Outcomes: Transferable Skills

On the completion of this course successful students will be able to:

Make effective use of both oral and written skills and be able to communicate effectively to both specialist and non-specialist audiences.

Teaching/Learning Methods and Strategies

Students’ transferable skills are developed through lectures, tutorials, directed reading, problem-solving scenarios and student presentations.

Methods of Assessment

Students’ transferable skills are developed through presentation exercises, student and tutor-lead discussions, preparation for oral and written presentations, group-working exercises.

The assessment of the majority of the transferable skills forms an integral part of the overall assessment of the degree pathway. Group-working, written and oral communication skills are assessed directly. Practical skills in the use of Information Technology are not formally assessed, although the development of IT skills are integral to the learning and teaching process underpinning the pathway and are assessed indirectly.

MODULE INFORMATION

Programme Requirements

Module Title

Module Code

Level/ stage

Credits

Availability

Duration

Pre-requisite

 

Assessment

 

 

 

 

S1

S2

 

 

Core

Option

Coursework %

Practical %

Examination %

Computer Modelling of Contaminant Transport

CIV7019

7

20

YES

12 weeks

N

YES

80%

0%

20%

GIS and Spatial Analysis

EVP7032

7

20

YES

12 weeks

N

YES

100%

0%

0%

Sustainable Transportation Systems

MEE7013

7

10

YES

12 weeks

N

YES

0%

0%

100%

Nuclear Engineering

MEE7016

7

10

YES

12 weeks

N

YES

0%

0%

100%

Tidal Energy - Assessment and Exploitation

CIV7012

7

10

YES

1 weeks

N

YES

80%

20%

0%

Environmental Governance from the Global to the Local

LAW8304

7

20

YES

12 weeks

N

YES

90%

10%

0%

Assessment of Environmental Impacts

CIV7059

7

20

24 weeks

N

YES

100%

0%

0%

Land & Water Quality

CIV7040

7

20

24 weeks

N

YES

100%

0%

0%

Eng Hydrology and Hydrogeology

CIV7048

7

20

24 weeks

N

YES

20%

0%

80%

Construction and Business Management

CIV7045

7

20

24 weeks

N

YES

20%

0%

80%

Geotechnics

CIV7065

7

20

24 weeks

N

YES

20%

0%

80%

Water Treatment, Flow Predicition and Control

CIV7063

7

20

24 weeks

N

YES

20%

0%

80%

7

10

YES

12 weeks

N

YES

20%

0%

80%

Notes