ENERGY
Energy
Energy is the mysterious force that travels through the universe making things happen.
The scientific definition is the ability to do work.
Types of Energy
There are many types of energy, in fact new types are still being discovered from time to time. The main ones we understand today are: Electromagnetic Thermal Mechanical Chemical Electrical Nuclear
Electromagnetic
Thermal
Thermal energy is the total energy of all of the molecules in a substance. Temperature is the measure of thermal energy!
Mechanical
Mechanical energy is the energy of motion. Potential energy is the energy a body has from its position and kinetic energy is the energy it has when it is actually in motion.
Chemical
Chemical energy is released when chemical bonds are broken and reformed. i.e. during a chemical reaction
Electrical
Electrical energy is energy created by moving electrical charges. It travels through wires and we use it…a lot!
Nuclear
Protons and neutrons in an atom’s nucleus are held there by nuclear forces. When these forces are overcome and neutrons and/or protons are removed from an atom nuclear energy is released.
Energy Transformations
Just like the other main component of the universe, matter, energy is also conserved. Energy can be neither created nor destroyed.It does, however, get transformed from one form of energy to another all the time.
How does electricity come from the sun?
Energy Use
How do we humans use energy?
Transportation
Electricity
Where does our electricity come from?From Duke Energy/Progress:
58,200 megawatts of generating capacity from a diverse mix of coal, nuclear, natural gas, oil and renewable resources
Non-renewable resources cannot be replenished at the rate at which they are being used.Also referred to as fossil fuels because they were created by the Earth over millions of years from decomposing organisms.
Examples: Coal Petroleum
NON-RENEWABLE
Natural Gas Nuclear
Advantages of Coal
Coal provides: Jobs Income from exports(US holds majority of the world’s reserves) Taxes to government used in essential services including schools, hospitals, roads and police cheap & reliable infrastructure
It is non-renewable! Mining creates environmental & human problems On combustion, emits air pollutants such as carbon
dioxide, and nitrogen oxides Creates waste in the form of ash which needs to be
stored Uses large amounts of water in the electricity
generation process
Disadvantages of Coal
Natural Gas Plant
Produces half the greenhouse gas emissions of coal and oil Has a high heating value Is accessible from a number of areas Can be transported easily by pipes to homes and businesses Can be used as a source of hydrogen energy
Advantages of Natural Gas
It is non-renewable! On combustion produces greenhouse gases; mainly carbon dioxide Costs involved in exploration, infrastructure e.g. plants and pipelines
Disadvantages of Natural Gas
1. In a nuclear reactor, fuel rods full of uranium pellets are placed in water.
2. Inside the fuel rods, uranium atoms split, releasing energy.
3. This energy heats water, creating steam.
4. The steam moves through a turbine, which turns a generator to create electricity.
5. The steam cools back into water, which can then be used over again. At some nuclear power plants, extra heat is released from a cooling tower.
Advantages of Nuclear
• Uses lesser amount of uranium compared with coal for the same energy output.
• No CO2 emissions
Yearly fuel of a nuclear power plant (NPP)
Disadvantages of Nuclear
• It is non-renewable!• Nuclear waste - can be toxic for 1000’s of years• Storage locations - NIMBY• Possible use in nuclear weapons – “Dirty bombs”• Possible accidental radiation release - Fukushima
Petroleum – Crude Oil
Combusts (burns) easily Has a high heating value Relatively easy to transport Can be made into a variety of useful products
Advantages of Petroleum
It is non-renewable! Combustion of oil
produces greenhouse gases
Sources of oil are becoming more difficult to find
Disadvantages of Petroleum
Cost of oil can be high
Political & human problems – WAR!
Environmental Impact
Non-Renewable Resources are Finite Folks!
RENEWABLE ENERGY
Source of energy that will not run out!
Examples: Solar Wind Hydroelectric Geothermal
Courtesy of Ergon Energy
1. Sunlight hits the surface of the photovoltaic cell.
• A material called a semi-conductor converts the light into electricity.
1. Mirrors or reflectors concentrate the sun's rays to heat a special kind of liquid.
2. The heat from this liquid boils water to create steam.
3. Steam spins a turbine that is connected to a generator, which creates electricity.
4. The steam cools and condenses back to water, which is recycled, reheated, and converted into steam again.
Advantages of Solar
Source: United States Department of Energy
• Renewable!• Limited CO2 emissions• The source of energy
(sun) is free!• Costs associated with
solar are going down as cost of fossil fuels are going up
Disadvantages of Solar• Cost of power is high• Technology is
expensive• Not always sunny (not
reliable)• Equipment can be
damaged in storms etc• Dust etc can impact
effectiveness
1. As the wind blows over the blades of a wind turbine, it causes the blades to lift and rotate.
2. The rotating blades turn a shaft that is connected to a generator.
3. The generator creates electricity as it turns.
Renewable energy from the wind has been used for centuries to power windmills to mill wheat or pump water
It is free other than the cost to produce & maintain the equipment
No emissions except in the production of equipment
Advantages of Wind
Unpredictable wind speeds Can be unsightly depending on where they are
located Impacts on habitat (especially for birds & bats) Noise & shadows
Disadvantages of Wind
1. Flowing water turns a water wheel or turbine.
2. A generator attached to the turbine produces electricity.
Advantages of Hydroelectric
• Renewable form of energy• Limited CO2 emissions except in construction of
equipment & if coal fired power is used to pump water back up to a higher dam
Disadvantages of Hydroelectric
• The building of large dams floods large areas and causes damage to existing habitats (for humans & wildlife)
• Changing the flow of a river can affect the water supply to other areas
• A suitable site is not always near where energy is being used
Three Gorges Dam in China
1. Hot water is pumped from deep underground through a well under high pressure.
2. When the water reaches the surface, the pressure is dropped, which causes the water to turn into steam.
3. The steam spins a turbine, which is connected to a generator that produces electricity.
4. The steam cools off in a cooling tower and condenses back to water.
5. The cooled water is pumped back into the Earth to begin the process again.
1. Water or a refrigerant moves through a loop of pipes.
2. When the weather is cold, the water or refrigerant heats up as it travels through the part of the loop that's buried underground.
3. Once it gets back above ground, the warmed water or refrigerant transfers heat into the building.
4. The water or refrigerant cools down after its heat is transferred. It is pumped back underground where it heats up once more, starting the process again.
5. On a hot day, the system can run in reverse. The water or refrigerant cools the building and then is pumped underground where extra heat is transferred to the ground around the pipes.
Renewable! Less expensive Becoming more
and more accessible with new technology
Advantages of Geothermal
Sometimes hot water pumped to the surface contains pollutants (stinky sulfur)
Location restricted: Must be at convergence of tectonic plates.
Disadvantages of Geothermal Earth’s crust must be
thin
Hot rocks and water must be close to earth’s surface.
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