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Renewable and Distributed Energy Resource Technologies

OCIECE EACJ5300/ELG7114i - 2013 Winter Term . Renewable and Distributed Energy Resource Technologies . Xiaoyu Wang , Assistant Professor Department of Electronics, Carleton University. Course Introduction. Contact Information. Email: xiaoyuw@doe.carleton.ca Phone: 613-520-2600 ext. 1049

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Renewable and Distributed Energy Resource Technologies

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  1. OCIECE EACJ5300/ELG7114i - 2013 Winter Term Renewable and Distributed Energy Resource Technologies XiaoyuWang, Assistant Professor Department of Electronics, Carleton University Course Introduction

  2. Contact Information • Email: xiaoyuw@doe.carleton.ca • Phone: 613-520-2600 ext. 1049 • Office hour: Wednesday 3:00pm-4:00pm, 7076 MintoCenter

  3. Evaluation • Assignment 20 % One computer-based • Mid-term exam 20 % Take home exam Feb. 18 – Feb. 24 • Project40 % Due on Apr. 22 • Final exam 20 % Take home exam Apr. 9 – Apr. 18 All the materials are submitted to xiaoyuw@doe.carleton.ca electronically before deadlines.

  4. Project • Individual or group (maximum two students) project • Each student (group) is required to submit a one-page project proposal for consideration on January 29th. • Project report and simulation files are required to submit. • Simulation Tool • Matlab/Simulink-SymPowerSystems: Canal Building 3104 (Ottawa Hydro Lab), Mackenzie Building (ME4128, ME4166), MintoCenter (MC6030) • ETAP: Canal Building 3104 (Ottawa Hydro Lab)

  5. Topics-I • Jan.7-Jan.13Power system basics • Jan.14-Jan.20 Power system analysis methods • Jan.21-Jan.27 Modeling and control of PV systems • Jan.28-Feb.3Grid connection of PV systems • Feb.4-Feb.10 Modeling and control of wind generation systems • Feb.11-Feb.17 Grid connection of wind generation systems

  6. Topics-II • Feb.25-Mar.3 Modeling and control of energy storage units • Mar.4-Mar.10 Grid connection of energy storage units • Mar.11-Mar.17 Electric vehicles and vehicle-to-grid technology • Mar.18-Mar.24 Distributed generation anti-islanding • Mar.25-Mar.31 Power quality issues on distributed generation • Apr.1-Apr.7 Modeling, control and operation of microgrid

  7. Reference books • Electric machinery fundamentals (Chapman) • Power systems analysis and design (Glover) • Power electronics, converters, applications and design (Mohan) • Doubly fed induction machine: modeling and control for wind energy generation (Wiley) • Integration of distributed generation in the power system (Wiley) • Optimization of photovoltaic power systems: modelization, simulation and control (Springer) • Microgridsand active distribution networks (IET)

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