РефератыИностранный языкNuNuclear Energy Essay Research Paper Nuclear EnergyNuclear

Nuclear Energy Essay Research Paper Nuclear EnergyNuclear

Nuclear Energy Essay, Research Paper


Nuclear Energy


Nuclear energy by definition is the energy


consumed or produced in modifying the


composition of the atomic nucleus. Nuclear energy


is used for things such as atomic bombs, hydrogen


bombs and other nuclear weapons. Nuclear


energy can also be used for powering


electricity-generating plants all over the world.


There are many arguments for and against nuclear


power. Nuclear power is an inexpensive clean


source of power. Others feel that because of the


hazardous radiation emitted during the producing


of the power and the radioactivity of the material


used that nuclear power is not as good as the


alternatives which are fossil fuels and solar


power.(Hansen, 1993)


If matter changes state or composition, it is


accompanied by the production of energy.


Processes such as combustion produce energy by


rearranging the atoms or molecules of that


substance.(Brain, 1998) An example of this is the


combustion of methane (natural gas)


CH(4) + 2O(2) = CO(2) + 2H(2)O + energy


In this example the amount of energy released is


eight electron volts or 8 eV. The electron volt unit


is the unit used by nuclear physicists. The electron


volt represents the gain in kinetic energy when an


electron is accelerated through a potential drop of


one volt.(Brain, 1998)


The most common nuclear reaction is nuclear


fission. Nuclear fission is the process in which a


heavy nucleus combines with a neutron and


separates the heavy nucleus into two lighter


nuclei.(Roy, 1993) The most typical fission


reaction is that of uranium-235 it is as follows:


92 U235 + 1 neutron = 38 Sr96 + 54 XE138 + 2


neutrons + energy


Another type of nuclear reaction is nuclear fusion.


Nuclear fusion occurs when two light elements


combine to form a heavier atom.(Grisham, 1993)


An example of this is:


1 H(2) + 1 H(3) = 2 He(4) +1 neutron + energy


Nuclear Fission


Nuclear fission is a complex process, but many


products are formed during this process. Not only


the two nuclei but also neutrons, beta particles,


neutrinos and gamma rays are created during the


fission process.(Roy, 1993) There are more than


fifty different ways a nucleus may undergo fission.


Some of the ways are much more common than


others. During the fission process the nucleus


breaks into to unequal parts, one lighter fragment


and a heavier fragment. These nuclei are formed


with excess energy that they do not usually have in


their ground state they must lose the extra energy.


They release this extra energy in the form of


gamma radiation or sometimes neutron emission.


The primary fragments are rich in neutrons and are


radioactive. Uranium-235 which contains 92


protons and 143 neutrons are more likely to under


go fission when bombarded by low-energy


neutrons.(Hansen, 1993)


Nuclear Fission Used in Bombs


The fission process was discovered in the late


1930s. In late 1939 two scientists Otto Frisch and


Lise Meitner discovered the fissioning of uranium


into lighter particles while they were doing an


experiment involving neutron irradiation of


uranium. The possibility of a self-sustaining chain


reaction was apparent this caused an accelerated


rate of research.(Hansen, 1993)


The United States Government researched into the


possible applications of nuclear fission at the


beginning of World War II. In order for the


weapon to be able to work properly it would


require a self-sustaining fission reaction to be


created and also that an adequate amount of


fissionable material could be produced for use in a


weapon.(Brain, 1998) On December 2, 1942 at


the University of Chicago Enrico Fermi and his


team developed the worlds first self-sustaining


reactors. The reactor was fueled with natural


uranium imbedded in graphite blocks.(Hansen,


1993) The fission occurred in the isotope of


uranium, U-235. An important factor in


developing the nuclear bomb was to separate


U-235 from U-238. Natural uranium only contains


0.7% of U-235 and the remaining 99.3% of


natural uranium is U-238. The problem with this is


that U-238 does not fission except with very high


energy neutrons which are not available from the


fission process. To separate the two materials


gaseous defusion is used. Another way of making


nuclear weapons is to use a different fissionable


nucleus. Another material that is used is a synthetic


isotope of plutonium P-239.


Nuclear Fusion


In most fusion reactions after the two atomic nuclei


merge together to form a heavier nucleus a free


nucleon is also formed. In just about all fusion


reactions between light nuclei, a portion of their


rest mass is converted into kinetic energy of the


reaction products, or into gamma rays.(Grisham,


1993) The kinetic energy and gamma rays that are


released in the process of fusion, heat the inside


keeping the temperature very high so the fusion


can continue occurring. At thermonuclear


temperatures, matter can only exist in the plasma


state. Matter at thermonuclear temperature


consists of electrons, positive ions and very few


neutral atoms. If fusion reactions occur within


plasma the reactions heat the substance even


more, because a portion of the reaction energy is


transferred to the bulk of the plasma through


collisions.(Grisham, 1993)


Stars produce their energy through many types of


fusion reactions. Scientists know that fusion


reactions have clear potential as a power source


on earth due to the fact those fusion reactions have


been driving the stars for billions of years.(Hansen,


1993) For many decades now scientists have tried


to develop thermonuclear fusion reactions that will


produce useful power.


Nuclear Waste


Nuclear waste is one the biggest down fall to


nuclear power. Nuclear waste is any radioactive


material that is created by nuclear


technology.(www.hydro.on.ca, 1999) The most


common form of nuclear waste is those that are


produced by civilian nuclear industry and the


nuclear weapons program.


There are many other sources of nuclear waste to


some of them are radioactive material that is


produced by medical research, research on


nuclear power, industrial applications and the


contaminated sections of dismantled nuclear


facilities. Radioactive material decays by different


forms of radiation. Two different forms of


radiation are gamma rays and alpha particles. The


decay of the nuclear waste is characterized by the


type of emission, the energy of the emitted


radiation, and the rate at which decay occurs. The


decay rate of a radioactive material is usually


measured in terms of the half-life. A half-life is the


time that is required for one-half of the radioactive


material to decay.(Brain, 1998) The half-life of


each radioactive material is different, a half-life can


range from less than a millionth of a second to


billions of years.


The danger of radioactive material is that the


emitted radiation may come in contact with the


human body and cause damage to cells. The


effects of exposure to radioactive material can


vary from mild, which is temporary illness to


death. The effects of exposure can occur


immediately or can be delayed depending upon


the amount of radiation received.(Hansen, 1993)


There are many different types of nuclear waste.


Nuclear waste is normally characterized by it


physical and chemical properties and also their


source of origin. For example is the United States


all waste from the nuclear defense program is


classed as military waste and is usually treated


separately.


Chernobyl


Chernobyl is a Soviet Union nuclear power plant


that is located about 130 km north of Kiev in


Ukraine. At the Chernobyl nuclear power plant


occurred the world s worst nuclear-reactor


disaster on April 26, 1986. On this day the power


plants number 4 reactors exploded. The accident


occurred while an experiment was being


conducted with the graphite-moderated reactor


running but its emergency water-cooling system


turned off. The nuclear reactor suddenly went out


of control because of some miscalculations


allowed a neutron build-up in the core. The power


surge shattered the fuel. A steam-induced


explosion blew the lid off of the reactor because


the reactor was not designed for such pressure.


Another chemical explosion followed and


scattered fragments around the plant causing local


fires.(Grolier, 1993)


This nuclear killed 31 persons either immediately


or shortly thereafter, the nuclear blast also caused


the hospitalization of 500 others. People living


within 30 km of the power plant were evacuated


within a few days of the blast. Much of the


radioactivity was carried away from the site at high


altitudes due to the explosions and the fire.(Brain,


1998) The radioactivity was spread across the


Northern Hemisphere. The heaviest of the


radioactivity descended upon western Soviet


Union and some of Europe. These areas took


preventive steps to protect their food supplies.


The data on the effects of the radioactivity on the


world remain inconclusive.


The area within 30 km of the power plants


removed the heavily contaminated soil and trees to


try and get rid of any nuclear waste left there. In


1990 the authorities acknowledged that several


million people were still living on contaminated


ground. Illnesses such as thyroid cancer, leukemia


and other radiation illnesses are much higher than


normal among these people living on contaminated


ground. At the plant reactor number 4 was


entombed in concrete. Two of the three reactors


at Chernobyl are still in operation. There have


been other accidents since reactor number 4 blew


up because of this Ukraine s Parliament in 1991


pressed for a complete shut down of the plant.


This idea is highly unlikely because it is the only


power source for the region.(Hansen, 1993)


Nuclear Energy Today


Nuclear power has become a major source of the


world s electric energy since the discovery of


fission 50 years ago. At the end of 1989 there


were 416 nuclear power plants operating


worldwide producing 17% of the world s


electricity. There were 130 plants that were under


design at the end of 1989. Nuclear power is used


in 27 different nations and another three nations


have plants under construction. The United States


has the world s largest nuclear energy program at


the end of 1989 with 108 operating plants having


the operating capacity of 100,000 MW providing


20% of the U.S. with their power. In 1989 nuclear


power was the second largest source of electricity


in the U.S. exceeded only by coal which


contributes 55% of the U.S. s electricity. Other


sources of power are natural gas 9%, oil 6%, and


hydro power 9%.(Hansen, 1993) In Ontario 40%


of the electricity that is used is produced by


nuclear power. Ontario nuclear power plants


produce 8728 MW of


electricity.(www.hydro.on.ca, 1999)


Nuclear power plants are more complex and cost


more to build than plants that use fossil fuels. The


cost of fuel for nuclear power is much lower than


the cost of fossil fuel. In the long run nuclear


electricity is much cheaper for most nations


because of the differences in fuel prices. For


industrialized countries of Europe and Asia the


difference in cost may be as large as a factor of


half the cost. In some countries the nuclear power


program has come to a standstill. In the United


States there hasn t been an order to build a


nuclear power plant since mid-1970’s. The main


reason for the standstill is the move towards


increased efficiency in the consumption of oil and


also a drop in the demand for energy. The public


is also concerned about the safety of nuclear


power plants and also the increasing awareness of


the problems with nuclear waste. The reason for


the increase in safety awareness is because of the


accidents that have occurred. Before 1979 the


public was all for nuclear energy but since then a


reactor in Three Mile Island leaked radioactive


material into the environment. The largest reason


why the public changed their view was the


explosion of reactor four at the Chernobyl power


plant.


Nuclear power is an important factor in all of are


lives, if it if used safely it provides us with


inexpensive electricity but if used carelessly it can


make us ill, destroy the land and even kill us. It is


believed that in the future nuclear power will be


safer for all. The pro and cons of nuclear power


are balanced because it is much more inexpensive


and it will not run out like fossil fuels eventually


will. Nuclear reactors do not explode all that


often.

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