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Study information

Advanced Marine Renewable Energy - 2021 entry

MODULE TITLEAdvanced Marine Renewable Energy CREDIT VALUE15
MODULE CODECSMM404 MODULE CONVENERDr Ian Ashton (Coordinator)
DURATION: TERM 1 2 3
DURATION: WEEKS 0 10 0
Number of Students Taking Module (anticipated) 14
DESCRIPTION - summary of the module content

In ENE3003, Marine Renewable Energy, students obtain general understanding of resource and engineering aspects in marine renewable energy with a focus on wave and tidal energy.

In this module (CSMM404), students develop an advanced understanding of design and installation requirements for Renewable Energy projects offshore. It covers the fields of i) Hydrodynamics, ii) Offshore Structure Design, iii) Marine operations for energy projects, iv) Met-Ocean data and Resource Characterisation and Consenting.

Prerequisite module: ENE3003, CSM3361 is desirable.

AIMS - intentions of the module

The aim of the module is to provide the student with an advanced understanding of design and installation requirements within the sector of Marine Renewable Energy. In achieving this level of capability, students will develop competence applying hydrodynamic load calculations to fixed and floating structures, offshore anchoring and modelling methodologies to fixed and floating structures, the implementation of recognised design codes,  required procedures related to the resource characterisation and the sources of data available to achieve these processes. The module will also relate the content to current design codes and consenting procedures. Students will develop some competence to computational design tools that are routinely adopted in industry, for analysis and design tasks.

INTENDED LEARNING OUTCOMES (ILOs) (see assessment section below for how ILOs will be assessed)

Module Specific Skills and Knowledge:

On successful completion of this module, you should be able to:

1. Understand, in detail, resource characterisation for marine operations planning, engineering design, servicing and power conversion;

2. prepare hydrodynamic load calculations that are fit-for-purpose to support the design of fixed and floating offshore structures;

3. competently undertake response analyses of fixed and floating structures;

4. design an offshore structure to recognised design codes;

5. Understand factors that affect marine operations and project planning;

Discipline Specific Skills and Knowledge:

6. recognise developing technologies related to Marine Renewable Energy;

7. use mathematical and computer models applied in the offshore industry and develop an appreciation of their abilities and limitations;

8. understand concepts from other offshore engineering disciplines, wider engineering and some areas outside engineering and apply them effectively in marine renewable energy engineering projects;

9. apply theoretical principals and computer-based models for solving problems in offshore engineering applications;

10. extract data pertinent to an application of offshore installations, using computer based engineering tools when appropriate;

11. demonstrate knowledge of design processes and standards required for this installation of an offshore structure;

12. understand current practice and its limitations for Marine Renewable Energy, with some appreciation of likely new developments;

13. employ offshore engineering management techniques taking account of a range of commercial and industrial constraints.

Personal and Key Transferable/ Employment Skills and  Knowledge:

14. define a problem and identify constraints including environmental, health and safety and risk assessment issues within the offshore context;

15. appreciate offshore management and business practices, and their limitations, and how these may be applied appropriately;

16. make general evaluations of commercial risks through some understanding of the basis of such risk;

17. show awareness of appropriate codes of practice and industry standards.

SYLLABUS PLAN - summary of the structure and academic content of the module

- Waves in offshore engineering;
- viscous wave loads;
- wave forces on small and large bodies;
- dynamic response of fixed and floating structures;
- station keeping of fixed and floating structures;
- dynamic mooring analysis tool (OrcaFlex);
- offshore design standards and their application;
- Marine operation project management software (Mermaid); 
- offshore design process, offshore installation and maintenance process, identify and mange cost drivers;
- Licensing and consenting procedures;

LEARNING AND TEACHING
LEARNING ACTIVITIES AND TEACHING METHODS (given in hours of study time)
Scheduled Learning & Teaching Activities 40 Guided Independent Study 110 Placement / Study Abroad 0
DETAILS OF LEARNING ACTIVITIES AND TEACHING METHODS
Category Hours of study time Description
Lectures with integrated tutorials 22  
Instructional classes on the application of theoretical analysis and use of industrial software 8 OrcaFlex, Mermaid
Guided field work and practical workshop 4 Current Flume
Guest lectures 6  
Directed self study 110 Background reading, self study
Directed reading    

 

ASSESSMENT
FORMATIVE ASSESSMENT - for feedback and development purposes; does not count towards module grade
Form of Assessment Size of Assessment (e.g. duration/length) ILOs Assessed Feedback Method
Review of procedures used for fieldwork and practical 5 pages 5, 10, 13, 14, 15, 17 Group discussion during timetabled sessions
Review of presentation during preparation 1000 word equivalent all Group discussion during timetabled sessions

 

SUMMATIVE ASSESSMENT (% of credit)
Coursework 100 Written Exams 0 Practical Exams 0
DETAILS OF SUMMATIVE ASSESSMENT
Form of Assessment % of Credit Size of Assessment (e.g. duration/length) ILOs Assessed Feedback Method
15 min Presentation and 25 min Q&A 100 6,000 word equivalent all Written & verbal
         

 

DETAILS OF RE-ASSESSMENT (where required by referral or deferral)
Original Form of Assessment Form of Re-assessment ILOs Re-assessed Time Scale for Re-assessment
Summative assessment as above Referred and deferred assignments will be a 15 min pre-recorded presentation with Q&A Weighting as above August Ref/Def period
       

 

RE-ASSESSMENT NOTES

Referred and deferred assignments will mirror the original modes of assessment.

RESOURCES
INDICATIVE LEARNING RESOURCES - The following list is offered as an indication of the type & level of
information that you are expected to consult. Further guidance will be provided by the Module Convener
Basic reading:
 
Web based and electronic resources:
OrcaFlex – Mooring analysis  software
Mermaid – Marine operations planning software Matlab/Python – programming for data analysis
 
Other resources:
15m Current flume test facility
Dynamic Marine Component test facility (DMaC)

Reading list for this module:

Type Author Title Edition Publisher Year ISBN
Set Bhattacharyya, R., McCormick, M.E. Wave Energy Conversion Elsevier 2003 0080442129
Set Open University Waves, Tides and Shallow water processes Butterworth Heinemann 1999 978-750642811
Set Tucker, M.J. and Pitt, E.G. Waves in Ocean Engineering Elsevier 2001 978-0080435664.
Set Institution of Mechanical Engineers Wave power: moving towards commercial viability Bury St Edmunds: Professional Engineering Publishing 2000 1860583059.00
Set Thake, J Development, Installation and Testing of a Large-Scale Tidal Current Turbine 2005
Set Faltinsen, O. Sea Loads on Ships and Offshore Structures Cambridge University Press 1993 521458706
Set Massel, S.R Ocean Waves: Their Physics and Prediction World Scientific Publishing 1996 9810221096
Set Ochi, M.K. Ocean Waves: The stochastic Approach Cambridge University Press 2008 052101767X
Set Chakrabarti, S.K. Offshore structure modelling World Scientific 1994 9810215126.00
Set Chakrabarti, S.K. Handbook of Offshore Engineering Volume 1 & 2 Elsevier Science 2005 80443818.00
Set Chakrabarti, S.K. Hydrodynamics of offshore structures WIT Press 1987 090545166X
Set Barltrop, N.D.P. Floating structures: A guide for design and analysis OPL, Oilfield Publication 1998 1870553353
Set Tirant, P.L. and Meunier, J. Design guides for offshore structures: anchoring of floating structures, BHR Group Ltd 1990 1855980053
CREDIT VALUE 15 ECTS VALUE 7.5
PRE-REQUISITE MODULES CSM3361, ENE3003
CO-REQUISITE MODULES
NQF LEVEL (FHEQ) 7 AVAILABLE AS DISTANCE LEARNING No
ORIGIN DATE Thursday 6th July 2017 LAST REVISION DATE Thursday 8th July 2021
KEY WORDS SEARCH Hydrodynamics of offshore structures; offshore structure modelling; wave energy conversion; wave and tidal power; offshore wind.

Please note that all modules are subject to change, please get in touch if you have any questions about this module.