Division of Continuing and Extended Education
Executive Director
Nancy M. Pratt, Ph.D.
n.pratt@csuohio.edu
Systems Engineering with a Focus on Foundations of Microgrids
APPENDIX 1 Course Outline Systems Engineering with a focus on Foundations of Microgrids | |
| Block 1: Fundamentals of Electricity, Electric Grids and Microgrids (10 hours total) | |
| Week 1 (3 hours) | 1. Introduction to Electricity and Energy |
| 1.1. Basic Concepts of Electricity and Electric Circuits | |
| 1.1.1. Voltage, Current, Resistance, Reactance | |
| 1.1.2. Ohm’s Law and Power Calculations | |
| 1.1.3. Series and Parallel Circuits | |
| 1.1.4. AC vs. DC Electricity | |
| 2. Electric Grid Architecture | |
| 2.1. Overview of Electric Grid Components | |
| 2.1.1. Generation, Transmission, Distribution | |
| 2.1.2. Substations and Transformers | |
| 2.2. Functions of the Electric Grid | |
| 2.2.1. Load Balancing and Reliability | |
| 2.2.2. Grid Interconnections | |
| Week 2 (3 hours) | 3. Evolution of the Modern Electric Grid |
| 3.1. Historical Development | |
| 3.1.1. Early Power Systems to Current Infrastructure | |
| 3.1.2. Key Innovations and Milestones | |
| 3.2. Challenges and Opportunities | |
3.2.1. Aging Infrastructure and Modernization Efforts 3.2.2 Demand for grid capacity in the coming energy future | |
| 4. Introduction to Microgrids | |
| 4.1. Definition and Purpose of Microgrids | |
| 4.1.1. Characteristics and Benefits | |
| 4.1.2. Types of Microgrids (Grid-connected vs. Off-grid) | |
| Week 3 (3 hours) | 4.2. Key Components of Microgrids |
| 4.2.1. Distributed Energy Resources (DERs) | |
| 4.2.2. Power Generation – Renewable / Traditional | |
| 4.2.3. Power Distribution & Management | |
| 4.2.4. Energy Storage Systems and | |
| 4.2.5. Power Electronics & Control Systems | |
| 5. Electrical Loads and Load Management | |
| 5.1.1. Reactive Load Characteristics | |
| 4.2.1. Power Quality Considerations | |
| 4.2.1. Load Shedding & Prioritization Methods | |
| Block 1 -- QUIZ | Electric Fundamentals -- 1 hour |
| Block 2: Systems Principles and Model-Based Systems Engineering (10 hours total) | |
| Week 4 (3 hours) | 1. Understanding Systems Principles |
| 1.1. What is a System? | |
| 1.2. Definitions and Characteristics of Systems | |
| 1.3. Types of Systems (Open vs. Closed) | |
| 2. Systems Thinking | |
| 2.1. Holistic Approach to Problem Solving | |
| 2.2. Interrelationships and Interdependencies | |
| 2.3. Life-Cycle Management | |
| 2.3.1. Life Cycle Stages of Systems | |
| 2.3.2. Concept, Development, Production, Operation, and Disposal | |
| 2.3.3. Importance of Life-Cycle Management | |
| 2.4. Sustainability and Efficiency Considerations | |
| 2.5. Cost-Benefit Analysis | |
| Week 5 (3 hours) | 3. Introduction to Model-Based Systems Engineering |
| 3.1. Fundamentals of Model-Based Systems Engineering (MBSE) | |
| 3.2. Definition and Key Concepts | |
| 3.3. Benefits of MBSE in Microgrid Development | |
| 4. Modeling Techniques and Tools | |
| 4.1. Overview of Common Tools (e.g., SysML, UML) | |
| 4.2. Case Studies of MBSE in Microgrid Projects | |
| Week 6 (3 hours) | 5. Integration of Microgrid Systems |
| 5.1. Systems Integration Challenges | |
| 5.2. Technical and Regulatory Considerations | |
| 5.3. Stakeholder Engagement and Collaboration | |
| 6. Future Trends in Microgrid Systems | |
| 6.1. Smart Grids and IoT Integration | |
| 6.2. Policy and Economic Implications | |
| Block 2 -- QUIZ | Systems Fundamentals -- 1 hour |
Executive Director
Nancy M. Pratt, Ph.D.
n.pratt@csuohio.edu