Difference between revisions of "AY Honors/Renewable Energy/Answer Key"

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'''Renewable energy''' is any type of energy which has an abundant and ongoing source, such as the sun, wind, waves, rivers, tides and the heat from radioactive decay in the earth's core as well as biomass. Renewable energy does not include energy sources which are dependent upon a limited resource, such as [[fossil fuels]] and [[nuclear power]].  
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<!-- 1. What is renewable energy? -->
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Renewable energy is energy whose origins are continually and naturally replenished without human intervention. Examples of renewable energy sources include sunlight, wind, and waves.
  
Renewable energy may be used directly (as in [[solar oven]]s, [[geothermal heat pump]]s, and [[windmill]]s) or be used to [[electricity generation|generate electricity]]. Only the power of falling water in rivers ([[hydroelectricity]]), has been significantly tapped for the generation of electricity so far. [[solar power | Solar energy]]'s main human application has been in agriculture and forestry, via photosynthesis, and increasingly it is harnessed for heat. [[Biomass]] (eg sugar cane residue) is burned where it can be utilised. The others are little used today.  
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As the demand for energy resources continues to climb, mankind is faced with the dilemma of depleting the earth's resources to meet the demand. With the discovery of processes designed to harness clean and renewable energy, depletion of such resources will not be an issue, since they are naturally replenished. In addition, these processes have much less of an environmental impact than conventional methods used to harness resources such as oil.
  
Most renewable energy can trace their root to solar energy, perhaps with the exception of geothermal and tidal wave power.  For example, wind is caused by the sun heating the earth unevenly. Hot air is less dense, so it expands, moving to a less dense area.  Hydroelectric power can be ultimately traced to the sun too.  When the sun evaporates water in the ocean, the vapor forms clouds which later fall on mountains as rain which runs through turbines to generate electrity.  The transformation goes from solar energy to potential energy to kinetic energy to electric energy.
 
  
Turning to the use of renewable energy sources for electricity, there are immediate challenges in actually harnessing them. Apart from [[photovoltaic]] (PV) systems, which turn sunlight directly into electricity, the question is how to make them turn dynamos to generate the electricity. If it is heat which is harnessed, this is via a steam generating system.  
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<!-- 3. Describe how each of the following sources is used as a renewable source of energy. Draw an illustration depicting the usage of at least 3 of these renewable sources of energy. -->
  
If the fundamental opportunity of renewables is their abundance and relatively widespread occurrence, the fundamental problem, especially for electricity supply, is their variable and diffuse nature (The exception being geothermal energy, which is only accessible where the earth's crust is thin, such as near hotsprings and natural geisers). This means either that there must be reliable duplicate sources of electricity, or some means of electricity storage on a large scale. Apart from pumped-storage hydro systems, no such means exist at present, though use of hydrogen [[fuelcell]]s is a distinct possibility. For a stand-alone system the energy storage problem remains paramount. If linking to a grid, the question of duplicate sources arises. For large-scale and especially base-load electricity generation there is little scope for harnessing the sun.  
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Wind Power is energy that has been converted from the natural movement of wind by the use of devices such as wind turbines. It is clean, largely available, and produces no greenhouse gas emissions.
  
Renewable energy sources have a completely different set of environmental costs and benefits than fossil fuel or nuclear power plants. On the positive side they emit no [[carbon dioxide]] or other air pollutants (beyond some decay products from new hydroelectric reservoirs), but because they are harnessing relatively low-intensity energy, their 'footprint' - the area taken up by them - is necessarily much larger. Whether large areas near cities dedicated to solar collectors will be acceptable, if such proposals are ever made, remains to be seen. Beyond utilising roofs, 1000 MWe of solar capacity would require at least 20 square kilometres of collectors, shading a lot of country. In Europe, wind turbines have not endeared themselves to neighbours on aesthetic, noise or nature conservation grounds, and this has slowed their deployment. However, European non-fossil fuel obligations have led to increases in offshore wind development. However, much of the environmental impact can be reduced. Fixed solar collectors can double as noise barriers along highways, roof-tops are available already, and there are places where (redesigned) wind turbines would not obtrude unduly.
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Bioenergy is biomass energy, which is energy from organic matter. Wood, plants, even the fumes from landfills can be used as a biomass energy source.
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Ethanol is a fuel made from corn, sugar cane and other sources used in auto and jet fuel.
  
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<h3>Types of renewable energy</h3>
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Geothermal energy is energy that is created and stored in the earth. It can be used for heating for large areas, mineral recovery, and industrial process heating.
  
SOLAR ENERGY
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Hydropower is energy that is comes from falling water. Most commonly electricity from dams or run of the river generation turbines is created. Other uses are irrigation and (in pioneer times) falling water was directly harnessed with water wheels for the operation of gristmills and sawmills.
  
"Solar not nuclear" is a catch-cry of both antinuclear environmental groups and many technological optimists, particularly as advances in direct solar heating continue to be made. Certainly we can expect to see more roof area occupied by some kind of solar collectors in the future, as their price comes down and we adapt our energy usage to utilise better what is available from this source. However, for electricity generation solar power has limited potential, as it is too diffuse and too intermittent. First, solar input is interrupted by night and by cloud cover, which means that solar electric generation inevitably has a low capacity factor, typically less than 15%. Also, there is a low intensity of incoming radiation, and converting this to high grade electricity is still relatively inefficient (12 - 16 percent), though this has been the subject of much research over several decades.  
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Ocean Energy is energy that is comes from the ocean, which can be responsible for two types of energy: mechanical energy from the tides and waves, and thermal energy from the heat of the sun. It can be used for generating electricity.
  
Two methods of converting the sun's radiant energy to electricity are the focus of attention. The better known method utilises sunlight acting on photovoltaic (PV) cells to produce electricity. This has application on satellites and for certain earthbound signalling and communication equipment, such as remote area telecommunications equipment. Sales of solar PV modules are increasing strongly as their efficiency increases and price. But the high cost per unit of electricity still rules out ordinary use.  
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Solar Power is light and heat that is derived from the sun and collected through solar panels. It can be used to generate electricity for a variety of useful applications.
  
For a stand-alone system some means must be employed to store the collected energy during hours of darkness or cloud - either as electricity in [[Battery|batteries]], or in some other form such as [[hydrogen]] (produced by electrolysis of water) or [[superconductor]]s. In either case, an extra stage of energy conversion is involved with consequent energy losses, thus lowering overall net efficiency, and greatly increasing capital costs.
 
  
Several experimental PV power plants mostly of 300 - 500 kW capacity are connected to electricity grids in Europe and USA. Japan has 150 MWe installed. A large solar PV plant was planned for Crete. Research continues into ways to make the actual solar collecting cells less expensive and more efficient. Other major research is investigating economic ways to store the energy which is collected from the sun's rays during the day.
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<!-- 4. Individually or as a group, discuss some of the earliest forms of renewable energy. Are there energy forms that might have been used before sin? By Noah? By the patriarchs? -->
  
A solar thermal power plant has a system of mirrors to concentrate the sunlight on to an absorber, the energy then being used to drive turbines. The concentrator is usually a parabolic mirror trough oriented north-south, which tracks the sun's path through the day. The absorber is located at the focal point and converts the solar radiation to heat (about 400 degrees C) which is transferred into a fluid such as synthetic oil. The fluid drives a conventional turbine and generator. Several such installations in modules of 80 MW are now operating. Each module requires about 50 hectares of land and needs very precise engineering and control. These plants are supplemented by a gas-fired boiler which generates about a quarter of the overall power output and keeps them warm overnight. Over 350 MWe capacity worldwide has supplied about 80% of the total solar electricity to the mid 1990s.  
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The earliest form of renewable energy was probably the burning of biomass in the form of wood and dried animal dung. The fuel could be stored, and energy was available for immediate use, but the energy could not be kept in storage for afterwards.
  
The main role of solar energy in the future may be that of direct heating. Much of our energy need is for heat below 60 degrees C - eg. in hot water systems. A lot more, particularly in industry, is for heat in the range 60 - 110 degrees C. Together these may account for a significant proportion of primary energy use in industrialised nations. The first need can readily be supplied by solar power much of the time in some places, and the second application commercially is probably not far off. Such uses will diminish to some extent both the demand for electricity and the consumption of fossil fuels, particularly if coupled with energy conservation measures such as insulation.  
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Some people believe that the pre-flood culture had advanced technologies. Out of place artifacts like machined balls and gold chains inside coal suggest this. Consider how much knowledge a person living hundreds of years and so close to God's perfect creation of Adam and Eve could amass and what they could create with that knowledge. The world had one language as well, and many overlapping generations, facilitating communication.
  
With adequate insulation, [[heat pump]]s utilising the conventional refrigeration cycle can be used to warm and cool buildings, with very little energy input other than from the sun. Eventually, up to ten percent of total primary energy in industrialised countries may be supplied by direct solar thermal techniques, and to some extent this will substitute for base-load electrical energy.  
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Additional references are available from the Bible which can provide further insight into this. For example, the sun, the movement of water through rivers, etc.
  
WIND ENERGY
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<!-- 5. Individually or as a group, show at least five important events in the history of renewable energy through:<br>a. Presentation<br>b. Video<br>c. Interactive game<br>d. Speech<br>e. Display -->
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For this requirement, you will need to research the history of renewable energy, and then present your findings using one of the techniques listed in the requirement.
  
Wind turbines have been used for household electricity generation in conjunction with battery storage over many decades in remote areas. Generator units of more than 1 MWe are now functioning in several countries. The power output is a function of the cube of the wind speed, so such turbines require a wind in the range 3 to 25 metres/second (11 - 90 km/hr), and in practice relatively few areas have significant prevailing winds. Like solar, wind power requires alternative power sources to cope with calmer periods.
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Prior to the development of coal in the mid 19th century, nearly all energy used was renewable. Almost without a doubt the oldest known use of renewable energy, in the form of traditional biomass to fuel fires, dates from the beginning of history.
  
However, there are now many thousands of wind turbines operating in various parts of the world, with a total capacity of over 20,000 MWe. This has been the most rapidly-growing means of electricity generation at the turn of the 21st century and provides a valuable complement to large-scale base-load power stations. Denmark gets over 10% of its electricity from wind. The most economical and practical size of commercial wind turbines seems to be around 600 kWe to 1 MWe, grouped into wind farms up to 6 MWe. Most turbines operate at about 25% load factor over the course of a year, but some reach 35%.  
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Probably the second oldest usage of renewable energy is harnessing the wind in order to drive ships over water. This practice can be traced back to ships on the Nile.
  
RIVERS
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The primary sources of traditional renewable energy were human labor, animal power, water power, wind, in grain crushing windmills, and firewood, a traditional biomass. A graph of energy use in the United States up until 1900 shows oil and natural gas with about the same importance in 1900 as wind and solar played in 2010.
  
[[Hydroelectric]] power, using the potential energy of rivers, now supplies 19% of world electricity. Apart from a few countries with an abundance of it, hydro capacity is normally applied to peak-load demand, because it is so readily stopped and started. It is not a major option for the future in the developed countries because most major sites in these countries having potential for harnessing gravity in this way are either being exploited already or are unavailable for other reasons such as environmental considerations.  
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By 1873, concerns of running out of coal prompted experiments with using solar energy. Development of solar engines continued until the outbreak of World War I. The importance of solar energy was recognized in a 1911 Scientific American article: "in the far distant future, natural fuels having been exhausted [solar power] will remain as the only means of existence of the human race".
  
The chief advantage of hydro systems is their capacity to handle seasonal (as well as daily) high peak loads. In practice the utilisation of stored water is sometimes complicated by demands for irrigation which may occur out of phase with peak electrical demands.  
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The theory of peak oil was published in 1956. In the 1970s environmentalists promoted the development of renewable energy both as a replacement for the eventual depletion of oil, as well as for an escape from dependence on oil, and the first electricity generating wind turbines appeared. Solar had long been used for heating and cooling, but solar panels were too costly to build solar farms until 1980.
  
GEOTHERMAL
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The source of most renewable energy comes from the sun.
  
Where hot underground steam can be tapped and brought to the surface it may be used to generate electricity. Such geothermal sources have potential in certain parts of the world such as [[New Zealand]], [[USA]], [[Philippines]] and [[Italy]]. Some 6000 MWe of capacity is operating. There are also prospects in certain other areas for pumping water underground to very hot regions of the earth's crust and using the steam thus produced for electricity generation.  
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Renewable energy such as solar energy can be used to supply power larger communities through a solar power station. Tanks of molten salt can be used to store the energy harnessed from the sun for the purpose of generating electricity during cloud cover, or through the night. Renewable energy can also be used for agricultural purposes, providing social services, education, and health care.
  
TIDES
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Fuel made from bio sources like corn is now a common ingredient in automotive fuel.
  
Harnessing the tides in a bay or estuary has been achieved in [[France]] (since 1966) and [[Russia]], and could be achieved in certain other areas where there is a large tidal range. The trapped water can be used to turn turbines as it is released through the tidal barrage in either direction. Worldwide this technology appears to have little potential, largely due to environmental constraints.  
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Hydro electric power (electricity) is a renewable energy used everywhere the grid goes.
  
WAVES
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<!-- 8. Why have many governments invested in renewable energy sources? Be able to cite at least two examples. -->
  
Harnessing power from wave motion is a possibility which might yield much more energy than tides. The feasibility of this has been investigated, particularly in the UK. Generators either coupled to floating devices or turned by air displaced by waves in a hollow concrete structure would produce electricity for delivery to shore. Numerous practical problems have frustrated progress.  
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There are positive incentives for governments to invest in renewable energy sources.
  
<h3>Renewable energy needs a reliable and efficient storage system</h3>
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Most sources of renewable energy pose no noxious by-products (the main exception being the burning of biomass). As a result, there is less pollution, waste, and less of a threat concerning extremely destructive natural disasters.
  
Sun, wind, tides and waves cannot be controlled to provide directly either continuous base-load power, or peak-load power when it is needed. In practical terms they are therefore limited to some 20% of the capacity of an electricity grid, and cannot directly be applied as economic substitutes for coal or nuclear power, however important they may become in particular areas with favourable conditions. Nevertheless, such technologies will to some extent contribute to the world's energy future, even if they are unsuitable for carrying the main burden of supply.  
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The reality of global warming has also become a considerable factor with regard to the harmful effects of carbon dioxide (CO2) on the balance of the planet’s ecosystem. The less CO2, the better of our planet would be.
  
If there were some way that large amounts of electricity from intermittent producers such as solar and wind could be stored efficiently, the contribution of these technologies to supplying base-load energy demand would be much greater. Already in some places pumped storage is used to even out the daily generating load by pumping water to a high storage dam during off-peak hours and weekends, using the excess base-load capacity from coal or nuclear sources. During peak hours this water can be used for hydroelectric generation. Relatively few places have scope for pumped storage dams close to where the power is needed, and overall efficiency is low. Means of storing large amounts of electricity as such in giant batteries or by other means have not been developed.  
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===The Failure of its Technology More Minimized=== <!--T:29-->
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The technology used to harness energy from renewable resources is essentially stable. As a result, insurance companies are more inclined to issue warranties for performance of panels and turbines for 20 years or more. Once these items are installed, they can be relied upon to start working straight away and not stop for years.
  
There is some scope for reversing the whole way we look at power supply, in its 24-hour, 7-day cycle, using peak load equipment simply to meet the daily peaks. Today's peak-load equipment could be used to some extent to provide infill capacity in a system relying heavily on renewables. The peak capacity would complement large-scale solar thermal and wind generation, providing power when they were unable to. Improved ability to predict the intermittent availability of wind enables better use of this resource. In Germany it is now possible to predict wind generation output with 90% certainty 24 hours ahead. This means that it is possible to deploy other plant more effectively so that the economic value of that wind contribution is greatly increased.
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<!-- 9. What are some of the issues facing the use of renewable energy? What are some of the advantages and potential disadvantages of moving away from fossil fuel energy sources to renewable energy? -->
  
However, any substantial use of solar or wind for electricity in a grid means that there must be allowance for 100% back-up with hydro or fossil fuel capacity. This gives rise to very high generating costs by present standards, but in some places it may be the shape of the future.  
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Although renewable energy has many advantages with regard to its environmental impact, there are concerns that must be considered as well. The ability to supply energy to meet the demand may pose a problem. Providing renewable energy requires designing and building equipment that will harness and extract it once found. The entire manufacturing process must be considered as well.
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The general population has grown accustomed to current resources such as oil for heating. As such, although the development of an cleaner, alternative means that present less of an environmental impact may not gain the momentum desired. Some renewable resources have not been around long and tested long enough for individuals to give up what they are comfortable with for something that may be cleaner.
  
HYDROGEN FUEL CELLS
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<!-- 10. Individually or as a group, build, not from a kit, a device to harness some form of renewable energy. These devices may include:<br>a. Potato clock<br>b. Solar or wind powered motor<br>c. Hydropower lift<br>d. Your choice. -->
  
Hydrogen is widely seen as a possible fuel for [[transport]], if certain problems can be overcome economically. It may be used in conventional [[internal combustion engine]]s, or in [[fuel cell]]s which convert chemical energy directly to electricity without normal burning, and the pollution that comes with it.
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Note: Internet search engines provide tons of information when you type one of the sources of renewable power and “science experiment.” Thus for hydropower you would search for “hydropower science experiment.
  
Making hydrogen requires either reforming natural gas ([[methane]]) with steam, or the [[electrolysis]] of water. The former process has [[carbon dioxide]] as a by-product, which exacerbates (or at least does not improve) [[greenhouse gas]] emissions relative to present technology. With electrolysis, the greenhouse burden depends on the source of the power, and both intermittent renewables and [[nuclear energy]] are considered here.
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<!-- 11. Brainstorm a list of at least four Biblical texts/stories that illustrate the use of renewable energy. -->
  
With intermittent renewables such as solar and wind, matching the output to grid demand is very difficult, and beyond about 20% of the total supply, apparently impossible. But if these sources are used for electricity to make hydrogen, then they can be utilised fully whenever they are available, opportunistically. Broadly speaking it does not matter when they cut in or out, the hydrogen is simply stored and used as required.
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A quite different rationale applies to using nuclear energy for hydrogen. Here the plant would be run continuously at full capacity, with perhaps all the output being supplied to the grid in peak periods and any not needed to meet civil demand being used to make hydrogen at other times. This would mean maximum efficiency for the nuclear power plants and that hydrogen was made opportunistically when it suited the grid manager.
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===In Job, Satan used a wind power for evil.=== <!--T:35-->
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“And, behold, there came a great wind from the wilderness, and smote the four corners of the house, and it fell upon the young men, and they are dead; and I only am escaped alone to tell thee.
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About 50kWh is required to produce a kilogram of hydrogen by electrolysis, so the cost of the electricity clearly is crucial.
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“And the sons of Aaron the priest shall put fire upon the altar, and lay the wood in order upon the fire: And the priests, Aaron's sons, shall lay the parts, the head, and the fat, in order upon the wood that is on the fire which is upon the altar.
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'''Statistics and facts'''
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“And when he came to the gate of the city, indeed a widow was there gathering sticks. And he called to her and said, “Please bring me a little water in a cup, that I may drink.” And as she was going to get it, he called to her and said, “Please bring me a morsel of bread in your hand.”
  
[[Iceland]] is a world leader in renewable energy due to its abundant hydro and geothermal energy sources. Over 99% of the country's electricity is from renewable sources and most of its urban household heating is geothermal. [[Israel]] is also notably as much of its household hot water is heated by solar means. These countries' successes are at least partly based on their geographical advantages. 
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So she said, “As the Lord your God lives, I do not have bread, only a handful of flour in a bin, and a little oil in a jar; and see, I am gathering a couple of sticks that I may go in and prepare it for myself and my son, that we may eat it, and die.
'''References'''
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}}
*[http://www.uic.com.au/ The Uranium Information Centre] provided much of the original material in this article.
 
*Energy Information Administration provides lots of statistics and information on the industry - http://eia.doe.gov
 
*Boyle, G (ed), '''Renewable Energy - Power for a Sustainable Future'''. Open University, UK, 1996.  
 
  
[[talk:Renewable_energy|Talk]]
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“And Elijah answered and said unto them, If I be a man of God, let fire come down from heaven, and consume thee and thy fifty. And the fire of God came down from heaven, and consumed him and his fifty.”
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Renewable Energy

Skill Level

2

Year

2014

Version

23.11.2024

Approval authority

General Conference

Renewable Energy AY Honor.png
Renewable Energy
Nature
Skill Level
123
Approval authority
General Conference
Year of Introduction
2014
See also
Conservation Master Award
Preservation of Water Resources
Climate Science - Advanced


1

What is renewable energy?


Renewable energy is energy whose origins are continually and naturally replenished without human intervention. Examples of renewable energy sources include sunlight, wind, and waves.


2

Why is renewable energy important?


As the demand for energy resources continues to climb, mankind is faced with the dilemma of depleting the earth's resources to meet the demand. With the discovery of processes designed to harness clean and renewable energy, depletion of such resources will not be an issue, since they are naturally replenished. In addition, these processes have much less of an environmental impact than conventional methods used to harness resources such as oil.



3

Describe how each of the following sources is used as a renewable source of energy. Draw an illustration depicting the usage of at least 3 of these renewable sources of energy.



3a

Wind Power


Wind Power is energy that has been converted from the natural movement of wind by the use of devices such as wind turbines. It is clean, largely available, and produces no greenhouse gas emissions.


3b

Bioenergy


Bioenergy is biomass energy, which is energy from organic matter. Wood, plants, even the fumes from landfills can be used as a biomass energy source. Ethanol is a fuel made from corn, sugar cane and other sources used in auto and jet fuel.


3c

Geothermal Energy


Geothermal energy is energy that is created and stored in the earth. It can be used for heating for large areas, mineral recovery, and industrial process heating.


3d

Hydropower


Hydropower is energy that is comes from falling water. Most commonly electricity from dams or run of the river generation turbines is created. Other uses are irrigation and (in pioneer times) falling water was directly harnessed with water wheels for the operation of gristmills and sawmills.


3e

Ocean Energy


Ocean Energy is energy that is comes from the ocean, which can be responsible for two types of energy: mechanical energy from the tides and waves, and thermal energy from the heat of the sun. It can be used for generating electricity.


3f

Solar Power


Solar Power is light and heat that is derived from the sun and collected through solar panels. It can be used to generate electricity for a variety of useful applications.




4

Individually or as a group, discuss some of the earliest forms of renewable energy. Are there energy forms that might have been used before sin? By Noah? By the patriarchs?


The earliest form of renewable energy was probably the burning of biomass in the form of wood and dried animal dung. The fuel could be stored, and energy was available for immediate use, but the energy could not be kept in storage for afterwards.

Some people believe that the pre-flood culture had advanced technologies. Out of place artifacts like machined balls and gold chains inside coal suggest this. Consider how much knowledge a person living hundreds of years and so close to God's perfect creation of Adam and Eve could amass and what they could create with that knowledge. The world had one language as well, and many overlapping generations, facilitating communication.

Additional references are available from the Bible which can provide further insight into this. For example, the sun, the movement of water through rivers, etc.


5

Individually or as a group, show at least five important events in the history of renewable energy through:
a. Presentation
b. Video
c. Interactive game
d. Speech
e. Display


For this requirement, you will need to research the history of renewable energy, and then present your findings using one of the techniques listed in the requirement.

Prior to the development of coal in the mid 19th century, nearly all energy used was renewable. Almost without a doubt the oldest known use of renewable energy, in the form of traditional biomass to fuel fires, dates from the beginning of history.

Probably the second oldest usage of renewable energy is harnessing the wind in order to drive ships over water. This practice can be traced back to ships on the Nile.

The primary sources of traditional renewable energy were human labor, animal power, water power, wind, in grain crushing windmills, and firewood, a traditional biomass. A graph of energy use in the United States up until 1900 shows oil and natural gas with about the same importance in 1900 as wind and solar played in 2010.

By 1873, concerns of running out of coal prompted experiments with using solar energy. Development of solar engines continued until the outbreak of World War I. The importance of solar energy was recognized in a 1911 Scientific American article: "in the far distant future, natural fuels having been exhausted [solar power] will remain as the only means of existence of the human race".

The theory of peak oil was published in 1956. In the 1970s environmentalists promoted the development of renewable energy both as a replacement for the eventual depletion of oil, as well as for an escape from dependence on oil, and the first electricity generating wind turbines appeared. Solar had long been used for heating and cooling, but solar panels were too costly to build solar farms until 1980.


6

Discover the source of most reusable energy.


The source of most renewable energy comes from the sun.


7

What are some commercial and industrial uses of renewable energy?


Renewable energy such as solar energy can be used to supply power larger communities through a solar power station. Tanks of molten salt can be used to store the energy harnessed from the sun for the purpose of generating electricity during cloud cover, or through the night. Renewable energy can also be used for agricultural purposes, providing social services, education, and health care.

Fuel made from bio sources like corn is now a common ingredient in automotive fuel.

Hydro electric power (electricity) is a renewable energy used everywhere the grid goes.


8

Why have many governments invested in renewable energy sources? Be able to cite at least two examples.


There are positive incentives for governments to invest in renewable energy sources.

The Overall Impact on the Planet

Most sources of renewable energy pose no noxious by-products (the main exception being the burning of biomass). As a result, there is less pollution, waste, and less of a threat concerning extremely destructive natural disasters.

The reality of global warming has also become a considerable factor with regard to the harmful effects of carbon dioxide (CO2) on the balance of the planet’s ecosystem. The less CO2, the better of our planet would be.

The Failure of its Technology More Minimized

The technology used to harness energy from renewable resources is essentially stable. As a result, insurance companies are more inclined to issue warranties for performance of panels and turbines for 20 years or more. Once these items are installed, they can be relied upon to start working straight away and not stop for years.


9

What are some of the issues facing the use of renewable energy? What are some of the advantages and potential disadvantages of moving away from fossil fuel energy sources to renewable energy?


Although renewable energy has many advantages with regard to its environmental impact, there are concerns that must be considered as well. The ability to supply energy to meet the demand may pose a problem. Providing renewable energy requires designing and building equipment that will harness and extract it once found. The entire manufacturing process must be considered as well.

The general population has grown accustomed to current resources such as oil for heating. As such, although the development of an cleaner, alternative means that present less of an environmental impact may not gain the momentum desired. Some renewable resources have not been around long and tested long enough for individuals to give up what they are comfortable with for something that may be cleaner.


10

Individually or as a group, build, not from a kit, a device to harness some form of renewable energy. These devices may include:
a. Potato clock
b. Solar or wind powered motor
c. Hydropower lift
d. Your choice


Note: Internet search engines provide tons of information when you type one of the sources of renewable power and “science experiment.” Thus for hydropower you would search for “hydropower science experiment.”


11

Brainstorm a list of at least four Biblical texts/stories that illustrate the use of renewable energy.


Wind - to move ships through the waters.


“But the Lord sent out a great wind into the sea, and there was a mighty tempest in the sea, so that the ship was like to be broken.”
Jonah 1:4 (KJV)

In Job, Satan used a wind power for evil.


“And, behold, there came a great wind from the wilderness, and smote the four corners of the house, and it fell upon the young men, and they are dead; and I only am escaped alone to tell thee.”
Job 1:19 (KJV)

Biomass - from firewood


“And the sons of Aaron the priest shall put fire upon the altar, and lay the wood in order upon the fire: And the priests, Aaron's sons, shall lay the parts, the head, and the fat, in order upon the wood that is on the fire which is upon the altar.”
Leviticus 1:6-8 (KJV)



“And when he came to the gate of the city, indeed a widow was there gathering sticks. And he called to her and said, “Please bring me a little water in a cup, that I may drink.” And as she was going to get it, he called to her and said, “Please bring me a morsel of bread in your hand.” So she said, “As the Lord your God lives, I do not have bread, only a handful of flour in a bin, and a little oil in a jar; and see, I am gathering a couple of sticks that I may go in and prepare it for myself and my son, that we may eat it, and die.”
1 Kings 17:10-12 (KJV)



“And Elijah answered and said unto them, If I be a man of God, let fire come down from heaven, and consume thee and thy fifty. And the fire of God came down from heaven, and consumed him and his fifty.”
2 Kings 1:12 (KJV)



References

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