Student Notes Energy Resources PDF

Summary

These student notes detail various types of energy resources, including renewable and non-renewable sources. They cover conventional energy resources, such as fossil fuels, and concepts like net energy gain and pollution. The notes also touch on the tragedy of the commons and some environmental effects of energy production and consumption.

Full Transcript

Mr. Standifer

**Student Notes Energy Resources**

[Types of Resources ]

- Renewable resources: resources from the Earth that are 1.
\_\_\_\_\_\_\_\_\_\_\_\_\_\_ (Ex: sunlight, wind, heat)

- Non-renewable resources: resources that cannot be re-grown, or
re-made to keep up with the needs of consumers (humans) (Ex:
minerals, fossils fuels, trees, drinking water)

[Conventional Energy Resources]

- **Fossil fuels** are energy sources that formed over geologic time
as a result of the compression and partial decomposition of
2.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- Fossil fuels are considered to be nonrenewable because their
formation occurred over thousands or even millions of years.

- Fossil fuels include peat, coal, natural gas, and petroleum.

[Net Energy]

- **Net Energy Gain** (**NEG**) is a concept used in energy
economics that refers to the difference between the energy expended
to harvest an energy source and the amount of energy gained from
that harvest.

[Pollution]

- Besides net energy the pollution caused by a power source must also
be considered.

- There are two general pollution types.

- [Point pollution]  is a 3.\_\_\_\_\_\_\_\_\_\_\_\_
identifiable source of  air, water, thermal, noise
or light pollution

- [Nonpoint source pollution] generally results from land
runoff, precipitation, atmospheric deposition, drainage, or seepage.

- Nonpoint source (NPS) pollution comes from
4.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ sources. NPS pollution
is caused by rainfall or snowmelt moving over and through the
ground. As the runoff moves, it picks up and carries away natural
and human-made pollutants, finally depositing them into lakes,
rivers, wetlands, coastal waters and ground waters.

http://www.magazine.noaa.gov/stories/images/nonpointsources.jpg

[Tragedy of the Commons]

- A social dilemma regarding an individual's responsibility to others;
the tragedy of the commons derives from situations in which one
player takes more than his/her share of a resource---the
\'commons\'---which means that all participants will suffer

- Usually when a
5.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- [http://www.youtube.com/watch?feature=player\_detailpage&v=EZFkUeleHPY]

[FOSSIL FUELS]

**Fossil fuels** are energy sources that formed over geologic time as a
result of the compression and partial decomposition of plants and other
organic matter.

- Fossil fuels are considered to be
6.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ because their
formation occurred over thousands or even millions of years.

- Fossil fuels include peat, coal, natural gas, and petroleum.

So how much do we depend on fossil fuels world wide?

- Roughly 87% of the world's energy comes from fossil fuels.

- A total of 7.\_\_\_\_\_\_\_ of the world's energy comes from
non-renewable resources when you count nuclear energy as well.

![A pie chart of the world's energy consumption by source is shown.
Thirty-five point four three percent is petroleum, twenty-eight point
one five percent is coal, twenty-three point four six percent is dry
natural gas, six point two seven percent is hydro-electricity, five
point seven nine percent is nuclear electricity, point eight six percent
is geothermal, wind, solar, biomass, and point zero five percent is
geothermal, biomass, or solar energy not used for
electricity.](media/image2.jpeg)

20 richest countries consume:

- 50% of coal

- 80% of natural gas

- 65% of oil

[COAL]

- **Coal is a combustible black or brownish-black sedimentary rock.**

- **Coal is composed primarily of carbon along with variable
quantities of other elements, chiefly hydrogen, sulfur, oxygen, and
nitrogen.**

- **Coal forms when 8.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ is
converted into peat, which in turn is converted into lignite, then
sub-bituminous coal, then bituminous coal, and lastly anthracite.**

- **This involves biological and geological processes that take place
over a long period.**

- **The stages of coal in decreasing heat value (how much heat they
put off) are**

- **9.\_\_\_\_\_\_\_\_\_\_\_\_**

- **Bituminous**

- **Subbituminous**

- **Lignite**

- **Peat**

- **Coal is primarily burned for
10.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
(which is in turn used to heat homes).**

- **Right now the US and Asia have the largest reserves of coal
followed by Russia**

- C:\\ENVSCI\\CONTENT\\0729.jpg

- Coal is the largest source of energy for the generation of
electricity worldwide, as well as one of the largest worldwide
anthropogenic (man made) sources of carbon dioxide releases.

- In 1999 world gross carbon dioxide emissions from coal usage were
8,666 million tons of carbon dioxide.

[Coal mines]

**There are two types of mining.**

**What determines the type of mining?**

**Underground v.s. Surface Mining depends on...**

- **Depth of below surface**

- **Size of the ore body**

- **Shape of the ore body**

- **Grade**

- **Type of Ore**

**Open pit**

- **Used when ore bodies lie near the surface**

- **Large hole exposes the ore body**

- **Waste rock (overburden) is removed**

- **2^nd^ cheapest method, but has the largest environmental impact.
Usually because reclamation is impossible for large hole.**

- 

**Strip Mining**

- **The cheapest and safest method, but can have a significant impact
environmentally on the surface.**

- **The ore is close to the surface of the land (30m) but has one or
more layers of rock and dirt on top of it
(11.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_).  To mine the ore, these
layers have to be taken off. [ ]**

- **This mining is done in long, narrow strips.  When the ore is done
in one strip, the miners begin to create another strip next to it. 
The waste, dirt, and rock that they take off of the top of the next
strip is put on top of the last one ([It is now called
12.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_]).**

- stripmine

**Underground Mining**

- **Very expensive and the most dangerous of the three methods, but
has the least impact environmentally on the earth's surface.**

- **Underground mining is done when the rocks, minerals, or gemstones
are too far underground to get out with surface mining.**

- **Entry into underground mines is by vertical shafts, or by a
sloping tunnel.**

- **Two common methods of underground mining are ;**

- **13.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ where
they did out rooms but leave sections behind to hold the roof up**

- **Long wall mining were a machine shaves veins of minerals off in
long patterns and as it moves areas will collapse behind it.**

- 

[Effects on health]

- Virtually all airborne pollutants gain access to the body via the
respiratory tract. Thus, it is no surprise that this important
system is affected significantly by pollutants discharged into the
atmosphere by electrical utilities that burn coal.

- Coal pollutants affect all major body organ systems and contribute
to four of the five leading causes of mortality in the U.S.: heart
disease, cancer, stroke, and chronic lower respiratory diseases.

- 1103.jpg

- Air pollutants from coal include nitrous oxide (NO 2) and very small
particles, known as PM---adversely affect lung development, reducing
forced expiratory volume (FEV) among children (used to determine
lung function).

- Air pollution triggers attacks of
14.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_, a respiratory disease
affecting more than 9% of all children in the U.S.

- 

- Pollutants produced by coal combustion damage the cardiovascular
system. Coronary heart disease (CHD) is a leading cause of death in
U.S.

- The mechanisms by which air pollution causes cardiovascular disease
have not been definitively identified but are thought to be the same
as those for respiratory disease: pulmonary inflammation and
oxidative stress.

- This in turn leads to artery blockages then to heart attacks.

- Tissues die due to oxygen deprivation, including permanent heart
damage.

- Coal pollutants also act on the nervous system to cause loss of
intellectual capacity, primarily through mercury.

- Coal-fired power plants are responsible for approximately one-third
of all 15.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
Emissions.

- A nationwide study of blood samples in 1999--2000 showed that 15.7%
of women of child bearing age have blood mercury levels that would
cause them to give birth to children with mercury levels exceeding
the EPA's maximum acceptable dose.

- Researchers have estimated that between 317,000 and 631,000 children
are born in the U.S. each year with blood mercury levels high enough
to impair performance on neurodevelopment tests and
cause16.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

[Effects on Land]

- **17.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_** is a fine coal
refuse and water mixture from a by-product of the coal mining and
preparation processes.

- Usually this from a coal preparation plant is stored in a dam. This
impounded liquid waste can sometimes total billions of gallons in a
single facility.

- High-profile disasters associated with these slurry impoundments
have called into question their safety.

- In February 1972, three dams holding a mixture of coal slurry and
water in Logan County, West Virginia failed in succession:
130,000,000 US gallons (490,000 m^3^) of toxic water were released
in the Buffalo Creek Flood. Out of a population of 5,000 people, 125
people were killed, 1,121 were injured, and over 4,000 were left
homeless. The flood caused 50 million dollars in damages.

- Mountaintop removal

- is a form of surface mining that involves the mining of the summit
of a mountain.

- Explosives are used to remove up to 400 vertical feet (120 m) of
mountain to expose underlying coal seams. Excess rock and soil laden
with toxic mining byproducts are often dumped into nearby valleys.

- Environmental impacts include; loss of biodiversity and toxification
of watersheds, that mitigation practices cannot successfully
address.

[PH scale]

- What is the pH scale, what is the
range?18.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_

- What is a log rhythmic
scale?19.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_

- What are the acids, what is
bases?20.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_

- What are most of our foods and most of our
cleaners?21.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_

[Acid Rain]

- What is normal rain water ph?

- Normally around 22.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_

- Why is it so low and not neutral or 7.0?

- Reactions with CO2

- H~2~0 + CO~2~ -\> CO~3~^-2^ + 2H^+^

- So what is acid rain? Anything below normal pH in the area.

- I've seen rain as low as 3.5 to 3.0.

- Acid rain is formed when water droplets react with
23.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ and nitric oxide to form H2SO4
and HNO3.

- Much of our Sulfur dioxide and nitric oxide is released from the
burning of fossil fuels especially coal.

- http://envis.tropmet.res.in/kidscorner/KidsCornerImg/acid\_rain/acidrain1.gif

- One of the problems with acid rain is leaching, or the loss of
nutrients farther down into the soil. The acids strip the nutrients
off the soils and release them into water supplies.

- Thus one way plants are affected by acid rain.

- ![C:\\My
Documents\\Chad\\APEnviro\\Airpollution\\acidlake.gif](media/image10.png)

[Plant Damage]

- Most gaseous pollutants damage leaves directly.

- Long term exposure breaks down the waxy coating that prevents water
loss as well as diseases, they are then more susceptible to pests,
drought, and frost.

- C:\\My Documents\\Chad\\APEnviro\\Airpollution\\leafstru.gif

- Such exposure also reduces
24.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ by interfering with
water and nutrient uptake and leaves turn yellow or brown and drop
off.

[Coal scrubbers]

- A coal scrubber is a pollution-control device primarily installed on
coal-fired electricity plants to remove sulfur dioxide (SO2)
emissions. Coal scrubbers use limestone or lime to remove sulfur
dioxide from the emissions stream.

- 

[NATURAL GAS]

- **Natural gas** is a naturally occurring hydrocarbon gas mixture
consisting primarily of
25.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- Natural gas is an important energy source to provide heating and
electricity. It is also used as fuel for vehicles and as a chemical
in the manufacture of plastics and other commercially important
organic chemicals.

- Methane is actually an odorless and a colorless gas. But if you have
smelled natural gas, you have noticed it has a nasty rotten egg
smell. Gas companies add a chemical to the gas so it will have this
unpleasant smell. The reason for adding this smelly chemical is for
our safety. It can be deadly if you breath too much of it. The smell
alerts us if there is a natural gas leak.

- Natural gas is found in deep underground natural rock formations or
associated with other hydrocarbon reservoirs in coal beds.

- 26\. \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_is also another resource
found in proximity to and with natural gas.

- http://geology.com/articles/oil-and-gas-investments/natural-gas-and-oil-drawing.jpg

- Advantages of natural gas

- emits 30% less
27.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ than
burning oil and 45% less carbon dioxide than burning coal,
thereby, improving the quality of air.

- natural gas releases very small amounts of sulfur dioxide and
nitrogen oxides, and essentially no ash or particulate matter.

- 60-year supply at current rates

- 

- combustion of natural gas are carbon dioxide and water vapor.
This is exactly what we release when we breathe.

[Disadvantages of Natural gas and Fracking]

- **Induced hydraulic fracturing** or **hydrofracking**, commonly
known as **fracking**, is a technique used to release petroleum,
natural gas, or other substances for extraction. This type of
fracturing creates fractures from a well drilled into reservoir rock
formations.

- A hydraulic fracture is formed by pumping the fracturing fluid into
the well at enough pressure to exceed that of the fracture gradient
or enough to crack the rock at depth. The rock cracks and the
fracture fluid continues further into the rock, extending the crack
still further, and so on.

- Operators typically try to maintain \"fracture width\", or slow its
decline, following treatment by introducing into the injected fluid
a [proppant] -- a material such as grains of sand,
ceramic, or other particulates, that prevent the fractures from
closing when the injection is stopped and the pressure of the fluid
is reduced.

- The propped fracture is permeable enough to allow the flow of fluids
to the well. These fluids include the gas or oil which them can flow
out of the rock and into the well to be pumped out.

- Water use - 1-9 million gallons to complete a frack.

- Drilling-waste pits. From 10 percent to 70 percent of the water sent
down the well during hydrofracking returns to the surface, and with
it drilling chemicals, very high levels of mineral salts and often,
naturally occurring radioactive material. Often stored in pit in
ground but spills have occurred that make their way to public water
sources.

- Water Contamination \-- methane contamination is widespread near
shale gas drill sites. This means if you have a well near the
fracking site your water may contain enough methane in it to light
on fire!

- **No federal oversight**. A simple few sentences added to the 2005
Energy Act, indirectly inserted by VP Dick Cheney, known as the
"Halliburton Loophole," exempted hydraulic fracturing operations by
oil, gas, or geothermal companies from the
28.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_
and the Superfund Act. Meaning industry does not have to disclose
any of the names of the thousands, if not millions of gallons of
chemicals they pump into the earth each day.

[OIL (PETROLEUM)]

- A naturally occurring flammable liquid consisting of a complex
mixture of hydrocarbons.

- A fossil fuel, it is formed when large quantities of
29.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_, usually zooplankton and
algae, are buried underneath sedimentary rock and undergo intense
heat and pressure.

- There are several methods to remove oil from the ground.

- Primary oil just flows into the well by gravity.

- Secondary they pump 30.\_\_\_\_\_\_\_\_\_\_\_\_ into a near by well
and the oil is forced into the well.

- Tertiary is similar to secondary but high pressure steam is used
instead.

- C:\\ENVSCI\\CONTENT\\0733.jpg

- 31\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ is our largest
consumer of oil.

- The Middle East, specifically Saudi Arabia has the largest reserves
of oil left. This has certain security concerns.

- 

- We are the largest consumer of oil in the world.

- 465 billion barrels consumed

- 1 trillion barrels left

- 22 billion consumed a year

- 45 years to go! Party now!

- Growing use in China (+10%/year)

- Japan, Europe depend on Mideast

- New reserves around Caspian Sea

- Nearly size of Saudi Arabia

- Increasing source of major wars, human rights abuses

[Exxon Valdez, Alaska 1989]

- The ***Exxon Valdez* oil spill** occurred in Prince William Sound,
32.\_\_\_\_\_\_\_\_, on March 24, 1989, when the *Exxon Valdez*,
an oil tanker bound for Long Beach, California, struck Prince
William Sound\'s Bligh Reef and spilled 260,000 to 750,000 barrels
(41,000 to 119,000 m^3^) of crude oil.

- It is considered to be one of the most devastating
human-caused environmental disasters. The *Valdez* spill was the
largest ever in U.S. waters until the 2010 *Deepwater Horizon* oil
spill, in terms of volume released. However, Prince William Sound\'s
remote location, accessible only by helicopter, plane, and boat,
made government and industry response efforts difficult and severely
taxed existing plans for response.

- The region is a habitat for salmon, sea otters, seals and seabirds. 

- Once oil spills occur they are very difficult to clean up. Generally
we use booms to contain spills and skimmers collect the top portion
of the water that should contain oil since it is less dense but in
rough seas much of it gets mixed downwards.

[Fission -- Nuclear Reactions]

- **Fission:** is a when uranium 235 is
33\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ into lighter nuclei
(elements) when struck by a neutron, each fission releases two or
three more neutrons and energy and the cycle can continue.

- Multiple fissions within a critical mass form a **chain reaction**,
which releases an enormous amount of energy.

- C:\\Ogren Docs\\APEnviro\\MatterandEnergy\\Bomb.jpg

- In a atomic bomb an enormous amount of energy is released in an
uncontrolled chain reaction.

- In a nuclear power plant only two or three neutrons released are
used to split another nucleus.

[Fusion -- Nuclear Reactions]

- **Nuclear Fusion;** a nuclear change in which two light elements are
34.\_\_\_\_\_ at extremely high temperatures, to form a heavier
nucleus and releasing energy.

- Fusion releases more energy than fission but requires extremely high
temps such as 1 million C.

- An example a of giant fusion reactor is the sun.

- ![C:\\Ogren Docs\\APEnviro\\modelsystems\\temp
pics\\fusion.jpg](media/image18.jpeg)

[Nuclear Reactors and Fuel Assemblies]

- 35.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_fuel pellets are
packed into 12 foot rods.

- About 200 rods are then housed into a fuel assembly.

- A control rod can be moved up or down over the fuel assembly. The
control rods absorb neutrons and can control the amount of fission
reactions that take place by blocking one fuel assembly from
another.

[The Core]

- A plant may have 250 fuel assemblies in a reactor and then may have
2 or 3 reactors.

- All of this is housed in a reactor vessel and is called the
36.\_\_\_\_\_\_\_\_\_\_\_\_\_.

- Also included in the vessel is the primary cooling system with a
coolant usually water.

- This liquid passes by the rods which are releasing heat from the
fission reactions and the water can reach extreme temperatures 590 F
and is pressured 2250 lbs per square inch.

- High pressure doesn't allow it to boil thus allowing it to reach
higher temperatures.

- The hot coolant runs through a heat exchanger where cool water is
poured over the hot primary cooling pipes and the water absorbs the
heat and steam is produced which runs through a turbine.

- The steam is then run through a third cooling system with a cooling
tower with a condenser.

- C:\\Ogren Docs\\APEnviro\\nonrenewableenergy\\nucpics\\reactor2.gif

- Reactors are contained in a containment building that is 3-5 inches
thick of steel that can withstand hurricanes, earthquakes and even
an airline crash.

- After 3-4 years the rods become too spent or damaged and about 1/3
of it is removed and placed in large concrete lined pools.

- After cooling they could be sent to fuel reprocessing plants or
permanent long term storage sites. Not often.

[Advantages of Nuclear Power Plants]

- No air pollution, only 37.\_\_\_\_\_\_\_\_the carbon dioxide as
coal.

- Water pollution and land disturbance are low.

- If built well little chance of catastrophic accidents.

**[High level Radioactive Waste]**

- High level waste gives off large amounts of radiation for a short
time and low levels for a long time.

- These wastes must be stored for 1,000 of years and 240,000 if P-239
is not removed.

- Mostly 38.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- Problem is no real solution, no facility will last that long, nor
does anyone want the finical and legal responsibility.

- 39.
\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_,
fused in glass or ceramic sealed in metal containers and buried in
salt or granite, that is waterproof and earthquake resistant.

- Not sound.

- A proposed site is in the U.S. at the Yucatan Mountain Range in
Nevada.

- Another possibility is to shoot the waste into
40.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- EXTERMELY costly and what if shuttle explodes like challenger.

- Could bury it in Antarctic ice or Greenland ice caps.

- Long term stability of ice is not known, heat from material
could destabilize the ice and retrieval of material would be
difficult if method fails.

- Could dump it in deep ocean
and41.\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_.

- Unknown about ocean bottom, volcanic activity may release
material or containers will corrode and retrieval would be
impossible.

- ![C:\\Ogren
Docs\\APEnviro\\nonrenewableenergy\\nucpics\\nucpics\\meltsub.jpg](media/image20.jpeg)

- Bury it in deposits of mud on the deep ocean floor in areas of
geologically stable areas of 65 million years.

- Containers would still corrode and release material, adherence of
mud and gravity may contain spill but not known, currently banned.

- Another possibility would be to change it into a harmless isotope,
nice idea but not known, with high costs and some disposal still
needed. Essentially a nice idea but impossible.