Module Details
| Module Code: |
ENVR E9Z11 |
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Full Title:
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Power System Integration of Renewables
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| Valid From:: |
Semester 1 - 2019/20 ( June 2019 ) |
| Language of Instruction: | English |
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| Module Description: |
This module aims to give the student a comprehensive overview of the Power Grid covering both generation and transmission.
Conventional and renewable generation technologies are presented in the context of their integration on to the electrical transmission and distribution grid.
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| Module Learning Outcome |
| On successful completion of this module the learner will be able to: |
| # |
Module Learning Outcome Description |
| MLO1 |
Interpret and compare small and medium size power systems in terms of their scale, features, structures and ability to integrate renewable energy technologies. |
| MLO2 |
Evaluate power quality characteristics/signatures of renewable generator technologies, associated power electronic circuits and distributed customer loads against grid code and international power quality standards. |
| MLO3 |
Support electrical power component selection and develop appropriate electronic technology solutions for integrating renewable generators within an electric power system. |
| MLO4 |
differentiate between embedded renewable generators and evaluate their impact on fault level, voltage support and grid stability at point of coupling along with generator interface protection schemes for island detection. |
| MLO5 |
Justify current and evolving control strategies for conventional and renewable energy generators connected to the electric power grid. |
| MLO6 |
Critically evaluate Grid operational strategies (forecasting, scheduling, SNSP) to facilitate increased renewable energy plant on the electric power system. |
| Pre-requisite learning |
Module Recommendations
This is prior learning (or a practical skill) that is strongly recommended before enrolment in this module. You may enrol in this module if you have not acquired the recommended learning but you will have considerable difficulty in passing (i.e. achieving the learning outcomes of) the module. While the prior learning is expressed as named DkIT module(s) it also allows for learning (in another module or modules) which is equivalent to the learning specified in the named module(s).
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| No recommendations listed |
| Module Indicative Content |
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Electric Power Fundamentals
Electrical energy, power (P, Q & S), power system analytical techniques.
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Power system plant
Power system structures and components - Conventional generation, renewable energy generation technologies, power electronic interfaces, transformers, transmission lines, converters.
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Meeting Specification
Power Quality (power factor, harmonics, disturbances). Renewable generator and consumer load contributions to power quality challenges. Grid Codes.
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Facilitating Renewable Energies
Grid system strategies (DS3), System non-synchronous penetration, Energy Storage, DSM, V2G, Smart Grid, Interconnection. Emerging technologies and strategies.
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Power System Operations, Control and Protection
System stability, frequency and voltage control, economic despatch, balancing mechanisms, embedded generator interface protection, islanding.
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Module Assessment
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| Assessment Breakdown | % |
|---|
| Course Work | 30.00% |
| Final Examination | 70.00% |
| Module Special Regulation |
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AssessmentsFull Time On Campus
| Reassessment Requirement |
A repeat examination
Reassessment of this module will consist of a repeat examination. It is possible that there will also be a requirement to be reassessed in a coursework element.
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Reassessment Description
Assessments are non-recoverable. Participation and attendance in class are essential requirements of the assessment. Practical laboratory based elements require the setting up of specialist equipment and the assistance of technical support staff, therefore it is not practical to repeat the assessment. Some practical based elements require working with electrical equipment and have significant health and safety risks and may only be attempted in a supervised laboratory.
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DKIT reserves the right to alter the nature and timings of assessment
Module Workload
| Workload: Full Time On Campus |
| Workload Type |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
| Lecture |
Contact |
No Description |
Every Week |
2.00 |
2 |
| Tutorial |
Contact |
No Description |
Every Week |
0.50 |
0.5 |
| Independent Study |
Non Contact |
No Description |
Every Week |
5.50 |
5.5 |
| Directed Reading |
Non Contact |
No Description |
Every Week |
4.00 |
4 |
| Total Weekly Learner Workload |
12.00 |
| Total Weekly Contact Hours |
2.50 |
| This module has no Part Time On Campus workload. |
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Module Resources
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| Recommended Book Resources |
|---|
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Theodore Wildi. (2014), Electrical Machines, Drives, And Power Systems, 6th. Pearson, Harlow, England.
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Thomas Ackermann. (2005), Wind Power in Power Systems, John Wiley, Chichester, West Sussex, England.
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Ned Mohan. (2012), Electric power systems : a first course, 1st. John Wiley & Sons, Hoboken, New Jersey.
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Graeme Vertigan. (2018), AC Circuits and Power Systems in Practice, 1st. Wiley, Hoboken, NJ.
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Godfrey Boyle. (2007), Renewable electricity and the grid : the challenge of variability, 2nd. Earthscan, London.
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E.R. Laithwaite, L.L. Freris. (1980), Electric Energy: It generation, transmission and use, McGraw-Hill.
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W. Paterson. (1999), Transforming Electricity, Earthscan.
| | Supplementary Book Resources |
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Bhag S. Guru and Hüseyin R. Hizioğlu. (2001), Electric Machinery and Transfomers, 3rd. Oxford University Press, New York.
| | Recommended Article/Paper Resources |
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Articles and papers will be recommended
in Lecture.
| | Other Resources |
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Website, Eirgrid Group, Transmission System
Operator. Various Publications,
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Website, Commission for Regulation of Utilities. Various Publications,
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Website, National Grid Electricity System
Operator. Various Publications,
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Website, System Operator for Northern Ireland. Various Publications,
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Website, Department for Business, Energy &
Industrial Strategy. Various publications,
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Software, Power System Simulation Software.
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Laboratory Equipment, As required for Power System
demonstrations.
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