Solar Energy and Electrical System Design

Solar Energy and Electrical System Design

This course is part of Solar Energy for Engineers, Architects and Code Inspectors Specialization

Instructor: Gay E Canough

What you'll learn

Analyze advantages and disadvantages of various PV systems
Evaluate PV system requirements
Identify key PV design considerations and planning tools

Details to know

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Assessments

11 assignments

Taught in English

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This course is part of the Solar Energy for Engineers, Architects and Code Inspectors Specialization

When you enroll in this course, you'll also be enrolled in this Specialization.

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There are 5 modules in this course

This course supplies learners with the insights necessary for properly planning, and therefore successfully installing, a photovoltaic (PV) system per design specifications. It directs learners through the important steps of initial site inspection and evaluating appropriate locations for PV systems, and features unique elements of residential, small, industrial and utility-scale solar applications. The course probes key design concerns – including load, efficiency, and mechanical and electrical design – as well as aesthetics and tools for planning. Learners experiment with calculations needed to design a PV system, exercising newly gained knowledge about site selection, layout, code compliance, system components, and wire sizing.

This course is targeted for engineers who have interest in entering the solar power sectors. It is also appropriate for HVAC installers, architects and building code inspectors. Learners should have a basic grasp of electrical engineering, physics and mathematical concepts. Those who are unfamiliar with how PV works, the elements of a PV system, and/or solar power ROI should take the first course of the specialization, Solar Energy Systems Overview. Material includes online lectures, videos, demos, hands-on exercises, project work, readings and discussions. This is the second course in the Solar PV for Engineers, Architects and Code Inspectors specialization. To learn more about the specialization, check out a video overview at https://youtu.be/XjkKzbXqA6s.

Learners will explore site inspection considerations, shade calculations, roof assessments, solar panel location and spacing, floodplains, power line and battery locations, circuit boxes, pros and cons of rooftop and ground-mounted systems, and considerations related to commercial and utility scale solar applications.

What's included

11 videos9 readings3 assignments

11 videosTotal 37 minutes

Initial Site Inspection1 minutePreview module
Shade Calculations8 minutes
Roof Assessments4 minutes
Solar Panel Location and Spacing5 minutes
Floodplains1 minute
Power Line and Battery Locations2 minutes
Circuit Boxes2 minutes
Pros and Cons of Rooftop Systems3 minutes
Ground Mounts and Building Integrated PV2 minutes
Large Commercial, Community, and Utility-Scale Solar3 minutes
Site Visit Summary0 minutes

9 readingsTotal 152 minutes

Acknoweldgements2 minutes
Shade Calculation Tools (Optional)30 minutes
Guide to Structural Consideration (Optional)30 minutes
Sun Path Chart Program (Optional)20 minutes
U.S. Floodplain Data (Optional)10 minutes
Ground Mount vs Rooftop Mounted Systems (Optional)10 minutes
Ground Mounts and Off-Grid Systems (Optional)20 minutes
Building-Integrated PV (Optional)20 minutes
Land Requirements for Solar PV Systems 10 minutes

3 assignmentsTotal 70 minutes

PV Design Basics30 minutes
PV Design Basics- Practice Quiz 120 minutes
PV Design Basics Practice Quiz 220 minutes

Students will learn about system loads and efficiency, wind and weight loading, how to calculate the proper size for lag bolts, measuring excess capacity, and considerations related to ballast systems.

What's included

7 videos6 readings2 assignments

7 videosTotal 27 minutes

Load3 minutesPreview module
Efficiency4 minutes
Wind Loading7 minutes
Lag Bolt Calculations4 minutes
Weight Loading2 minutes
Measuring Excess Capacity2 minutes
Ballast System1 minute

6 readingsTotal 75 minutes

System Sizing Calculation10 minutes
Full Sun Hours Chart10 minutes
Efficiency Calculation10 minutes
Wind Map and ASCE 7 (Optional)20 minutes
Wind Loading Calculation Formulas and Examples (Optional)15 minutes
Wood Handbook10 minutes

2 assignmentsTotal 50 minutes

PV Design Considerations30 minutes
PV Design Considerations Practice Quiz20 minutes

Students will learn about system sizing considerations and calculations.

What's included

14 videos14 readings3 assignments

14 videosTotal 67 minutes

Load and Size4 minutesPreview module
Inverters and Solar Panels10 minutes
Code1 minute
String Size, Pathways, and Module Curves6 minutes
Temperature Coefficient7 minutes
Inverter Capacity3 minutes
System Design Calculation2 minutes
Voltage Drop Overview4 minutes
Wire Run and Voltage Drop3 minutes
Ampacity5 minutes
Conduits in Different Scenarios5 minutes
Managing Current6 minutes
Shut Off4 minutes
Conclusion2 minutes

14 readingsTotal 165 minutes

Evaluating Loads (Optional)20 minutes
Types of Inverters (Optional)10 minutes
U.S. National Electric Code20 minutes
Trina Spec Sheet (Optional)10 minutes
Temperature Coefficient Calculations (Optional)10 minutes
SMA Inverter Capacity Spec Sheet (Optional)10 minutes
Calculating Voltage Change (Optional)10 minutes
Voltage Drop Calculation - Part I (Optional)10 minutes
Voltage Drop Calculation - Part II10 minutes
Ampacity Table 310.15(B)(16) (Optional)5 minutes
De-Rating Calculations (Optional)10 minutes
Ambient Temperature Adjustments (Optional)20 minutes
Ampacity Calculation10 minutes
Micro-Inverter Spec Sheet10 minutes

3 assignmentsTotal 65 minutes

Electrical System Design30 minutes
Electrical System Design Practice Quiz 115 minutes
Electrical System Design Practice Quiz 220 minutes

Students will learn about aesthetics considerations and tools for PV planning

What's included

4 videos7 readings2 assignments

4 videosTotal 33 minutes

PV Aesthetics7 minutesPreview module
Codes, Clean Energy Goals, and Costs4 minutes
Design Considerations5 minutes
PV Planning15 minutes

7 readingsTotal 170 minutes

Solar Shingles, Tiles, and Solar Roofs (Optional)20 minutes
PV Aesthetics (Optional)20 minutes
Codes (Optional)40 minutes
Solar PV Costs (Optional)20 minutes
Design Considerations (Optional)30 minutes
Planning Calculations (Optional)10 minutes
Planning Tools (Optional)30 minutes

2 assignmentsTotal 60 minutes

Recommendation Options30 minutes
Recommendation Options Practice Quiz30 minutes

Students will apply their learning to perform system design calculations.

What's included

1 reading1 assignment

Instructor

Instructor ratings

4.7 (284 ratings)

Gay E Canough

University at Buffalo

3 Courses36,608 learners

Offered by

University at Buffalo

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Reviewed on Aug 31, 2020

After finish this course, I realize my final project about renewable energy using solar panel was nothing compared with the knowledge I obtain from this course

Reviewed on Mar 29, 2021

It is an excellent course and excellent instructor but the course can be even better, if more explanation on a board added to the course's materials.

Reviewed on Sep 6, 2021

Awesome course. Reaching to the very basics but I would say the week 4 i.e related to planning etc. should be introduced in the begining. Rest is perfectly awesome.

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