Basics of SOLAR.ppt photovoltaic cells .
vigneshkannamdu
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Jul 22, 2024
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About This Presentation
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Slide Content
Solar Energy –A Bright Idea!
“I’d put my money on the sun and solar energy.
What a source of power! I hope we don’t have
to wait ‘til oil and coal run out before we
tackle that.”
-Thomas Edison
“I’d put my money on the sun and solar energy.
What a source of power! I hope we don’t have
to wait ‘til oil and coal run out before we
tackle that.”
-Thomas Edison
People have been harnessing
solar energy for a long time!
Solar collector for
heating water
A home in California in 1906
solar energy for a long time!
Solar collector for
heating water
A home in California in 1906
Sun Angles
Two Main Categories:
Solar Thermal Solar Photovoltaic (PV)
Water heating and cooking Electricity production
Solar Thermal Solar Photovoltaic (PV)
Water heating and cooking Electricity production
Solar Thermal Energy
Cooking Water Heating
Cooking Water Heating
Solar Water Heating
Solar Water Heating
•Solar water heating is
the most efficient and
economical use of solar
energy
•Residential systems
start at $2500 and
typically cost $3500-
$4500 installed
•Savings of $30-$75 per
month, lasting 20 years
•Tax credits and state
rebates available
•Solar water heating is
the most efficient and
economical use of solar
energy
•Residential systems
start at $2500 and
typically cost $3500-
$4500 installed
•Savings of $30-$75 per
month, lasting 20 years
•Tax credits and state
rebates available
How Does it Work?
How Does it Work?
•Systems can be passive or
active
•Passive systems only
found in warmer
climates, as they are
prone to freezing
•Active: Roof-top
collectors heat glycol
which then passes
through a heat exchanger
in the storage tank to
heat water
•Electric pump can be run
on solar PV
•Systems can be passive or
active
•Passive systems only
found in warmer
climates, as they are
prone to freezing
•Active: Roof-top
collectors heat glycol
which then passes
through a heat exchanger
in the storage tank to
heat water
•Electric pump can be run
on solar PV
Solar Hot Water
Classroom Experiments
•Design your own SHW
collector
•Variables:
–Color of collector
–Tubing length, pattern,
material
–Light intensity
–Insulation
–Use of reflective
materials
–Rate of water pumping
–Etc…
Classroom Experiments
•Design your own SHW
collector
•Variables:
–Color of collector
–Tubing length, pattern,
material
–Light intensity
–Insulation
–Use of reflective
materials
–Rate of water pumping
–Etc…
Solar Cooking
Benefits of Solar Cooking
•Consumes no fuels/wood
–No loss of trees & habitat
–Trees sequester carbon
•Generates no air pollution
•Generates no greenhouse
gases
•Produces no smoke
–Cooking smoke kills over 1.6
million people each year,
mostly women & children,
according to a recent report
•Eliminates fire dangers
•Consumes no fuels/wood
–No loss of trees & habitat
–Trees sequester carbon
•Generates no air pollution
•Generates no greenhouse
gases
•Produces no smoke
–Cooking smoke kills over 1.6
million people each year,
mostly women & children,
according to a recent report
•Eliminates fire dangers
More Benefits of Solar Cooking
•Eliminates work
–No daily search for
firewood
•2 Billion people rely on
wood for cooking fuel!
–No risks to women
and children
–Frees time for other
activities
–No need to stir food
–Helps to liberate
women
•Eliminates work
–No daily search for
firewood
•2 Billion people rely on
wood for cooking fuel!
–No risks to women
and children
–Frees time for other
activities
–No need to stir food
–Helps to liberate
women
More Benefits of Solar Cooking
•Cooks foods slowly and
thoroughly
•Preserves nutrients
•Foods will not burn
•Pots are easy to clean;
less clean water is
needed
•Use for canning
vegetables
•Use for dried fruit
•Kill insects in dry grains
•Cooks foods slowly and
thoroughly
•Preserves nutrients
•Foods will not burn
•Pots are easy to clean;
less clean water is
needed
•Use for canning
vegetables
•Use for dried fruit
•Kill insects in dry grains
Solar Cooking
How Long Does it Take?
•Vegetables: 1.5 hrs
•Rice/wheat: 1.5-2 hrs
•Beans: 2-3 hrs
•Meats: 1-3 hrs
•Bread: 1-1.5 hrs
How Long Does it Take?
•Vegetables: 1.5 hrs
•Rice/wheat: 1.5-2 hrs
•Beans: 2-3 hrs
•Meats: 1-3 hrs
•Bread: 1-1.5 hrs
Fun Student Projects!
Solar Electric
(Photovoltaic)
(Photovoltaic)
•Photovoltaic (PV) systems convert light
energy directly into electricity.
•Commonly known as “solar cells.”
•The simplest systems power the small
calculators we use every day. More
complicated systems will provide a large
portion of the electricity in the near
future.
•PV represents one of the most promising
means of maintaining our energy intensive
standard of living while not contributing to
global warming and pollution.
Solar Electric Systems
energy directly into electricity.
•Commonly known as “solar cells.”
•The simplest systems power the small
calculators we use every day. More
complicated systems will provide a large
portion of the electricity in the near
future.
•PV represents one of the most promising
means of maintaining our energy intensive
standard of living while not contributing to
global warming and pollution.
Solar Electric Systems
How Does it Work?
•Sunlight is composed of photons, or bundles of radiant
energy. When photons strike a PV cell, they may be
reflected or absorbed (transmitted through the cell).
Only the absorbed photons generate electricity. When
the photons are absorbed, the energy of the photons is
transferred to electrons in the atoms of the solar cell.
•Sunlight is composed of photons, or bundles of radiant
energy. When photons strike a PV cell, they may be
reflected or absorbed (transmitted through the cell).
Only the absorbed photons generate electricity. When
the photons are absorbed, the energy of the photons is
transferred to electrons in the atoms of the solar cell.
How Does it Work?
•Solar cells are usually made of two thin pieces of silicon, the
substance that makes up sand and the second most common
substance on earth.
•One piece of silicon has a small amount of boron added to it,
which gives it a tendency to attract electrons. It is called the p-
layerbecause of its positive tendency.
•The other piece of silicon has a small amount of phosphorous
added to it, giving it an excess of free electrons. This is called the
n-layer because it has a tendency to give up negatively charged
electrons.
•Solar cells are usually made of two thin pieces of silicon, the
substance that makes up sand and the second most common
substance on earth.
•One piece of silicon has a small amount of boron added to it,
which gives it a tendency to attract electrons. It is called the p-
layerbecause of its positive tendency.
•The other piece of silicon has a small amount of phosphorous
added to it, giving it an excess of free electrons. This is called the
n-layer because it has a tendency to give up negatively charged
electrons.
How Does it Work?
Helpful PV Animations
http://www1.eere.energy.gov/solar/animations.html
http://www.managenergy.net/kidscorner/animations/solar_an.html
http://www1.eere.energy.gov/solar/animations.html
http://www.managenergy.net/kidscorner/animations/solar_an.html
Best Place For Solar Panels?
•South Facing roof, adequate
space
•No shading (time of year,
future tree growth)
•Roof structure, condition
•South Facing roof, adequate
space
•No shading (time of year,
future tree growth)
•Roof structure, condition
Large Scale PV
Power Plants
Prescott Airport
Location: AZ
Operator: Arizona Public Service
Configuration: 1,450 kWp
SGS Solar
Location: AZ
Operator: Tucson Electric Power Co
Configuration: 3,200 kWp
Power Plants
Prescott Airport
Location: AZ
Operator: Arizona Public Service
Configuration: 1,450 kWp
SGS Solar
Location: AZ
Operator: Tucson Electric Power Co
Configuration: 3,200 kWp
Centralized Wind-Solar Hybrid System
•In hybrid energy
systems more than
a single source of
energy supplies the
electricity.
•Wind and Solar
compliment one
another
•In hybrid energy
systems more than
a single source of
energy supplies the
electricity.
•Wind and Solar
compliment one
another
Solar Concentrators
•These 20-kW Solar
Systems dishes dwarf
visitors in Alice Springs,
Australia.
•The concentrators use an
array of mirrors to focus
sunlight onto high-
efficiency solar cells.
•Four supports hold the
cells in front of the
mirrors
•The supports also supply
cooling water and
electrical connections
•These 20-kW Solar
Systems dishes dwarf
visitors in Alice Springs,
Australia.
•The concentrators use an
array of mirrors to focus
sunlight onto high-
efficiency solar cells.
•Four supports hold the
cells in front of the
mirrors
•The supports also supply
cooling water and
electrical connections
How Does the Color/Wavelength of Light
Affect PV Efficiency?
•Test 5-8 colors using different backgrounds on
PowerPoint Slides
–Purple
–Blue
–Green
–Yellow
–Orange
–Red
–White
Affect PV Efficiency?
•Test 5-8 colors using different backgrounds on
PowerPoint Slides
–Purple
–Blue
–Green
–Yellow
–Orange
–Red
–White
Approximate Wavelength:
390-455 nanometers
390-455 nanometers
Approximate Wavelength:
455-492 nanometers
455-492 nanometers
Approximate Wavelength:
492-577 nanometers
492-577 nanometers
Approximate Wavelength:
577-597 nanometers
577-597 nanometers
Approximate Wavelength:
597-622 nanometers
597-622 nanometers
Approximate Wavelength:
622-780 nanometers
622-780 nanometers
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