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Exploring Renewable Energy Schemes

Instructor: Jorge Santiago-Aviles

32,396 already enrolled

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6 modules

Gain insight into a topic and learn the fundamentals.

660 reviews

Beginner level

No prior experience required

Flexible schedule

2 weeks at 10 hours a week

Learn at your own pace

98%

Most learners liked this course

6 modules

Gain insight into a topic and learn the fundamentals.

660 reviews

Beginner level

No prior experience required

Flexible schedule

2 weeks at 10 hours a week

Learn at your own pace

98%

Most learners liked this course

What you'll learn

Identify the essential characteristics and technical requirements of photovoltaic, wind, and low head hydroelectric energy systems.
Integrate scientific and technological principles necessary to assess and implement small-scale renewable energy schemes.
Develop a plan for implementing a small-scale renewable energy scheme.

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Assessments

13 assignments¹

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Taught in English

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There are 6 modules in this course

What do you picture when you hear the term “renewable energy?” Do you imagine fields of solar panels, giant windmills, or huge hydroelectric dams? Those are all examples of large-scale, grid-tied systems. In this course, we’ll go much smaller and focus on off-grid, stand-alone systems.

We will explore the key components of photovoltaic, wind, and hydroelectric systems. We will examine photovoltaic, or PV, system components, and the scientific laws essential to understanding how renewable energy systems work. We will discuss wind energy and low-head hydroelectric systems, focusing on small-scale implementations. During our exploration of these systems, we will focus on safety and regulating bodies that guide proper system design. Throughout the course, you will be able to apply what you’re learning by conducting an energy audit to analyze power consumption, identifying essential system components of small-scale systems, building a budget for a small-scale system design, and creating a design for implementing a small-scale system.

Module details

In this module, we’ll get started by getting familiar with the course and our community expectations. Then, we'll explore the solar spectrum, the Stefan Boltzmann Law, and Wien’s Displacement Law. Each plays a significant role in helping us capture as much energy as we can from the sun. We’ll also explore direct beam and diffuse radiation and consider the implications for solar panel orientation.

What's included

5 videos11 readings2 assignments1 discussion prompt

5 videosTotal 35 minutes

Welcome to Exploring Renewable Energy Schemes4 minutes
Benefits and Costs of Renewable Energy Schemes3 minutes
The Importance of The Solar Spectrum, the Stefan Boltzmann Law and Wien’s Displacement Law16 minutes
The Roles of Direct Beam Radiation and Diffuse Radiation10 minutes
Panel Orientation in the Real World2 minutes

11 readingsTotal 91 minutes

Start Here: What You Need to Know10 minutes
Participating in Discussions5 minutes
About Dr. Santiago5 minutes
Optional: Pre-Course Survey5 minutes
Why Is It Important to Study Renewables?10 minutes
What to Expect in Module 110 minutes
Radiation from the Sun: Our Source of Energy10 minutes
(Suggested) Examples Using the Stefan Boltzmann Law and the Wien Displacement Law15 minutes
Thinking about Panel Orientation10 minutes
(Suggested) Tips for Finding the Optimum Tilt Angle10 minutes
Opt-in to Penn Engineering Online Communications1 minute

2 assignmentsTotal 20 minutes

Module 1 Quiz15 minutes
Check Your Knowledge: Solar Spectrum, Stefan Boltzmann Law, and Wien’s Displacement Law5 minutes

1 discussion promptTotal 10 minutes

Finding the Optimum Tilt Angle in Your Location10 minutes

In this module, we’ll explore the essential element of any photovoltaic system: the solar cell. We’ll examine all aspects of the solar cell, moving from the single cell to a collection of cells that allow us to harness the sun’s power.

What's included

5 videos2 readings3 assignments1 discussion prompt

5 videosTotal 43 minutes

Overview of a Simple Photovoltaic System7 minutes
Exploring Photovoltaic Materials and Semiconductor Physics14 minutes
A Closer Look at a Photovoltaic Cell7 minutes
Increasing the Power of Solar Cells7 minutes
Figuring Out How Much Power Is Delivered8 minutes

2 readingsTotal 30 minutes

What to Expect in Module 210 minutes
(Suggested) Photovoltaic Solar Cells20 minutes

3 assignmentsTotal 28 minutes

Module 2 Quiz15 minutes
Check Your Knowledge: Photovoltaic Basics5 minutes
Check Your Knowledge: I-V Curve and Maximum Power Point8 minutes

1 discussion promptTotal 20 minutes

Exploring the Benefits of Renewables20 minutes

The charge controller is a key element of any simple photovoltaic system. This device helps you avoid over or under charging your battery or battery bank. In this module, we’ll focus on both charge controllers and inverters and their important role in photovoltaic systems.

What's included

3 videos4 readings2 assignments1 discussion prompt

3 videosTotal 43 minutes

Charge Controllers and Inverters in Simple Photovoltaic Systems7 minutes
Enhancing Battery Life15 minutes
Integrating Inverters20 minutes

4 readingsTotal 45 minutes

What to Expect in Module 310 minutes
(Suggested) Solar Charge Controllers: All You Need To Know10 minutes
(Suggested) Installation Considerations: Reviewing the Codes20 minutes
Adding Power Optimizers5 minutes

2 assignmentsTotal 21 minutes

Module 3 Quiz15 minutes
Check Your Knowledge: Charge Controllers6 minutes

1 discussion promptTotal 30 minutes

What’s Your Consumption?30 minutes

In this module, we’ll start thinking about how to design a simple photovoltaic system. We’ll examine efficiency and develop strategies for determining the right components to meet our energy needs.

What's included

6 videos5 readings2 assignments1 discussion prompt

6 videosTotal 55 minutes

Reviewing the Components10 minutes
Balance of System4 minutes
Figuring Out What You Need19 minutes
Designing a System11 minutes
Design Example10 minutes
Understanding Regulations2 minutes

5 readingsTotal 65 minutes

What to Expect in Module 410 minutes
(Suggested) Stand Alone PV System10 minutes
(Suggested) Balance of System Equipment Required for Renewable Energy Systems10 minutes
(Suggested) Five Steps to Correctly Size your Own Solar Array20 minutes
(Suggested) Planning for Home Renewable Energy Systems15 minutes

2 assignmentsTotal 20 minutes

Module 4 Quiz12 minutes
Check Your Knowledge: System Components8 minutes

1 discussion promptTotal 30 minutes

What’s Your Budget?30 minutes

Humans have been harnessing the wind’s power for centuries. We’ve used it to help us sail ships, pump water, and grind gain. In modern times, we’re using wind energy to power our homes. The state of California, a pioneer in wind energy utilization, produces energy from its wind turbine farms in excess of 20 terawatts annually. That’s enough energy to power 3 million households.

What's included

5 videos3 readings2 assignments1 discussion prompt

5 videosTotal 42 minutes

What Are Wind Turbines?12 minutes
Getting Power from Wind5 minutes
The Role of Wind Speed6 minutes
Thinking about Placement9 minutes
Factors that Affect Performance10 minutes

3 readingsTotal 30 minutes

What to Expect in Module 55 minutes
(Suggested) Wind Turbine Blade Design, Flat or Curved15 minutes
(Suggested) Planning a Small Wind Electric System10 minutes

2 assignmentsTotal 18 minutes

Module 5 Quiz10 minutes
Check Your Knowledge: Wind Turbines8 minutes

1 discussion promptTotal 10 minutes

Get Feedback on Your Plan10 minutes

In this module, we’ll explore the ways water can generate electricity and discuss the components of low-head hydroelectric systems.

What's included

4 videos4 readings2 assignments1 peer review1 discussion prompt

4 videosTotal 41 minutes

How Hydroelectric Systems Work16 minutes
Examining the Components of Hydroelectric Systems10 minutes
Considerations for Designing Low-Head Hydroelectric Systems10 minutes
Regulations and Other Considerations for Low-Head Hydroelectric Systems5 minutes

4 readingsTotal 26 minutes

What to Expect in Module 610 minutes
(Suggested) Microhydropower Systems10 minutes
Opt-in to Penn Engineering Online Communications1 minute
Optional: Post-Course Survey5 minutes

2 assignmentsTotal 48 minutes

Cumulative Quiz (all modules)18 minutes
Check Your Knowledge: Hydroelectric Systems 30 minutes

1 peer reviewTotal 60 minutes

Creating Your Renewable Energy System Plan60 minutes

1 discussion promptTotal 15 minutes

Thinking About Different Systems15 minutes

Instructor

Instructor ratings

(212 ratings)

Jorge Santiago-Aviles

University of Pennsylvania

1 Course32,396 learners

Offered by

University of Pennsylvania

Learner reviews

5 stars
79.69%
4 stars
17.12%
3 stars
1.96%
2 stars
0.60%
1 star
0.60%

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Reviewed on Oct 30, 2020

The course was very useful. As a renewable energy engineer, it has strengthened my knowledge. I have recommended it to my fellows.

Reviewed on May 22, 2020

Exploring Renewable Energy Schemes, That is very helpful, I'm very glad to join in this experience with a team of Coursera, many thanks for all of you.

Reviewed on Feb 6, 2021

Very informative and as I expected, will recommend to all who wants to know and have clear understanding of renewable energy sources.

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