Replacing Coal Fired Power Plants With Solar Roofs NSM6020 Current Topics In Earth and Space Science.

Slides:



Advertisements
Similar presentations
 Solar energy is the result of thermonuclear fusion reactions deep within the sun.  Solar energy is the most abundant and most powerful energy source.
Advertisements

By: Philip, Thomas, and Isabel
Part 4: Efficiency / Conservation.  In the United States, each person averages 10,000 watts of energy use continuously —24 hours per day, 365 days per.
What is Solar Power? A Simple Example How Does Solar Work? Where do we use Solar Power? What is Photovoltaic Power? What are the Components of a Solar.
Solar and Wind Power The Future of Clean Energy
By: Zack Chiasson.  Solar power is basically the conversion of sunlight into energy.  Even the tiny percentage of sunlight that touches the earth is.
 Photovoltaic systems are systems that produce electricity from direct sunlight.  They produce clean, reliable energy without using any fossil fuels.
SOLAR POWER IN YOUR WORLD Colleen and Erin Lattyak.
Solar Power By: Ashton Mitzel. History  1876  founded that when selenium is exposed to light it creates electricity, without using any heat or movement.
By Elizabeth Boyer, Carolyn Robertson, Karleigh Cresswell.
The effects of global pollution on solar power efficiency Tom Hanley April 19, 2004.
Lauren Houston and Meghan Sullivan CP Physics, Block A, Mrs. Najmi
Solar Energy
Solar Power Safe Renewable Energy. What is solar power? Solar power is energy derived from the sun and converted to electricity or heat. It is a source.
Solar Energy Eco Friendly Construction Energy conservation is now a way of life for many in this region. At Eco Friendly Construction, we have embraced.
Solar Power EDSGN 100 Sec. 13 Design Team 1 Kyle Feaster Alex Shivetts Kait Levin.
Physics Energy Flow and Conservation of resources SOLAR ENERGY.
The questionnaire’s results. Solar energy. Give samples of using solar energy – the most common answers Photovoltaic cells Solar collectors to heat up.
Introduction to Photovoltaic System
Solar Energy By: Nathan, Sarah, and Jamie. Introduction Coal has been used for more than 260 years. U.S. produces about one billion tons per year. Can.
Section 15.3: Energy Resources
Get Energized! What is energy? Renewable Energy Sources Conserving Energy! Nonrenewable Energy Sources Get Energized!
By Christopher Fedor Gabe Falo Katie Joy Riley Smith Solar Energy.
Presented to you by: Chin Ming Fwu (2i3’03) Gaw Ban Siang (2i3’06) Kyle Foo (2i3’09)
Why Wind?.
RENEWABLE ENERGY. SOLAR ENERGY Can be used to: -Heat water -Heat spaces -Run electricity (electronics, appliances) Works from PHOTOVOLTAIC devices (PV)
Question of the Day Question: What do you think is meant by “Alternative Energy?” Answer: … … … Turn In: 19.2 Worksheet (1/2 Page)
INTRODUCTION As one of the fastest growing renewable energy sources, solar power is becoming increasingly popular. Over the past fifteen years, solar energy.
Renewable energy resources are the sources that can be replaced / generated at the same rate that they are being utilised.
P1a Energy and Energy Resources 1 Heat Transfer Conduction Convection Radiation 2 Using energy Forms of energy Conservation Efficiency 3 Electrical energy.
Fossil Fuels- Non renewable Nuclear- Non renewable Renewable Resources-wind, solar, biomass Energy.
Energy Units Calorie (old unit) Joule (J) (international unit) 1 cal = J Kilojoule (KJ) One calorie is the energy needed to raise 1g of water by.
 Test Friday  Guided Notes: How Electricity is Made  10 Review Q’s.
1.)What can this type of energy be used for?
Renewable/Non-renewable Resources
Solar Energy By Juan Figueroa & Jake Rassman. Current Status Today, in the United States the average cost per kilowatt hour per household for electricity.
Wind Wind Power “Research shows that wind power could theoretically produce over 100 times the region’s current demand for electricity.”
Clean Power: Photovoltaics and the University of Florida.
Alternative Energy Take a look at how electricity is made
17.4 Generating Electricity
SOLAR ENERGY.
Solar Power By: Douglas Hull, Sean Hare, and Omar Elauri Richard, J. AP Environmental Science Period 5.
Get Energized! What is energy? Nonrenewable Energy Sources
1 TAKS Objective 5 Energy and Heat It Is All Around You…
Lighting Up the Future: (Photovoltaic)Solar Power By Isaac Han.
Solar Energy- Photovoltaic Cells Amelia Romero.
Overview Wind Energy is currently the fastest renewable power source within our reach. Through this form of energy, the wind’s kinetic force is transformed.
Solar Energy By: Marisa Laim Kayla Laura. What is solar energy? a) Solar power is harnessing the radiation from the sun and using it as an energy resource.
How it works Solar cells are what convert the energy of the sunlight to electricity through the photovoltaic effect. The free flow of electrons through.
Energy The ability to do work or cause change Examples – kinetic or potential Non-example – matter, ideas Related Words – forms, sources, transfer, transformation.
Solar Energy. Solar panels Instead of using fossil fuels, solar power technologies use photovoltaic (PV) panels to convert sunlight directly into electricity.
Decentralized, Grid Tie Energy Generation. Decentralized Energy Generation To generate electricity from many small energy sources. Currently, industrial.
Chapter 8: Energy Sources and the Environment
Leland Public School’s Best Option For Renewable Energy
Alternative Energy Shawn Ogden Josh Sizemore. Alternative Energy Solar, wind, hydro and nuclear are just some of the forms of alternative energy. Usually.
Solar Energy Ashley Valera & Edrick Moreno Period 6.
Tidal Barrage  Advantages  Renewable  No air pollution  No fuel costs  Produces lots of power  Disadvantages  Huge initial cost  Environmental.
Ali Saffar Shamshirgar
A way of reducing carbon emission. Burning fossil fuel is one of the human activities that has a negative impact on the environment and it seems inevitable.
Natural Resources Any energy source, organism, or substance found in nature that people use. All four systems provide natural resources.
HYPOTHESIS AND SPECIFIC AIM BY RALIAT O. ALABI SOLAR ENERGY.
Chapter 13 Achieving Energy Sustainability. What is renewable energy? Renewable energy can be rapidly regenerated, and some can never be depleted, no.
I Home Energy Creating energy efficient solutions for your home.
Science A Physics – P1 Science A Physics – P1 Topic 1: Electricity Generation - 3 Topic 1: Electricity Generation - 3.
Solar Car Race.
RENEWABLE RESOURCES.
Alternative Energy Sources
These devices spin to generate energy.
The Right Site.
These devices spin to generate energy.
Presentation transcript:

Replacing Coal Fired Power Plants With Solar Roofs NSM6020 Current Topics In Earth and Space Science

Photoelectric Effect  In 1905, Albert Einstein discovered that light could free electrons on the surface of metals and cause them to flow making electricity.  In 1921 he received the Nobel Prize in Physics for the discovery. It was his only Nobel Prize.

Photoelectric Effect

 When the light is on, photons give their energy to loosely held electrons in the metal and they begin to flow thus producing electric current.  nt/background.html

Right Now We Burn Coal To Make Electricity

A Lot Of Coal

A Lot Of Pollution

A Lot Of Money

Is There An Alternative?   My Hypothesis: If electric utilities provided homes and businesses with photovoltaic roofs then they could increase the profitability of providing peak and intermediate electricity over the cost of building and operating new power plants.

Solar Roofing Shingles

Seamlessly Integrate

Come In Many Styles

On New Construction

Or As A Replacement Roof

Installs The Same As A Conventional Roof

And Saves Money

Hypothesis  Hypothesis: I believe that power companies could actually increase their profitability by diverting new fossil fuel power plant building funds away from new construction and into providing homeowners with photovoltaic roofing shingles.

Analysis  As a baseline comparison, the least expensive overnight cost power plant will be used as the basis for comparison to the possibility of solar roofing on homes within that power plants service area. In this case that would be dual unit advanced pulverized coal without a carbon capture system. For that type of power plant the overnight (construction) costs equal $2,934 per kilowatt production ability. This plant typically has a nominal capacity of 1,300 megawatts. Therefore, the total cost of construction for this plant would be $2934 x 1000 x 1300, which equals $3,814,200,000. (eia.gov report)

Analysis  Fuel costs have risen 76.7% from 2002 to  Operating costs have risen 67%  Based on EIA data report.

Analysis  According to the Dow Powerhouse Website, a major producer of solar roofing shingles, the cost to do a 3000 square foot roof is approximately $46,460. / This equals 15.5 cents per square foot. For that investment a solar roof would generate 12 watts per 15.5 cents. Current technology in solar roof shingles generates 12 watts per square foot of roof. (Sun roof: Solar panel shingles come down in price, gain in popularity. (2013, Apr. 2). Scientific American. Retrieved from: / /

Analysis  The total electrical energy that can be generated from a 3000 square foot roof using current efficiency is 12 watts x 3000 square feet equals watts or 36 kilowatts per hour. Because weather is unpredictable and accounting for seasonal changes it is necessary to make some estimates on the amount of time the solar roof will be producing electricity. Calculations for the comparison are based on the following criteria:

Analysis  Part 4: Number of sunny days in a year-150 with most being in the Summer.  Number of hours per day the sun is hitting the roof at a usable angle-7 hours.  Number of years the shingle will last-30 years.  In Illinois, reasonable estimates calculate as the following:  36 kW x 150 days per year x 7 hours per day x 30 years equals 1,134,000 kWhrs of electricity generated from one roof over the life of that roof.

Analysis  When the cost of the roof is divided by the amount of electricity generated, $46,460/1,134,000 kWhrs the final cost is equal to $.04 per kWhr.  Coal costs 3.6 cents per kWhr not including the overnight costs.  If the homeowner pays for installation the cost per kWhr comes down more.

Rising Costs From  Operational Costs rose.114 cents/kWhr  Maintenance costs rose.132 cents/kWhr  Fuel cost rose.808 cents/kWhr  Total rise in cost per Kilowatthour to produce electricity in 10 years using fossil fuel equals cents.  The most significant portion of the rising cost is FUEL for operating these power plants. 

Emissions Decreased  From 2002 to 2012 emissions decreased as following: (In thousand metric tons)  CO2 from 2,423,963 to 2,156,875  SO2 from 10,681 to 3,704  NOx from 5,194 to 2,148  BUT, AT WHAT COST?  Source: U.S. Energy Information Administration, Form EIA-860, "Annual Electric Generator Report"

Table 9.4. Average Costs of Existing Flue Gas Desulfurization Units  Pollution scrubber costs rose from $ in 2007 up to $ in 2012 per unit.  Scrubbers do remove pollution from gases but must pollute water to do so.  There are no free rides!!!  Source: U.S. Energy Information Administration, Form EIA-860, "Annual Electric Generator Report"

Increasing Efficiency  Right now solar cells highest level of efficiency peaks around 25%. That means that only 25% of the sunlight that strikes the surface of the cell is converted into electricity. That may be changing soon. Dr. John Rogers of the University of Illinois-Champaign-Urbana is experimenting with a new configuration of stacking solar cells and using more efficient materials like arsenic, gallium and indium That might be able to double the efficiency of solar cells very soon. -and-technology/ way-double- efficiency-solar-cells-about-go-mainstream- stacking) -and-technology/ way-double- efficiency-solar-cells-about-go-mainstream- stackinghttp:// -and-technology/ way-double- efficiency-solar-cells-about-go-mainstream- stacking

Conclusion  In conclusion, my hypothesis is correct for the most part. As the cost of fossil fuel, specifically coal, continues to rise and the cost of solar electricity continues to fall due to increasing efficiency and lower production costs, electric companies will become more able to provide their customers with quality service at a lower cost while still being profitable. Combining this methodology with other sources of renewable energy like geothermal, wind, and bio-fuels will only make the bottom line better for everyone involved.

3/7/14