An atom slams into another, sending a wave of energy outward when it splits. The extremely hot heat wave collides with water, instantaneously turning it to steam. This steam shots up to turn a massive wheel- and electricity is made. This may sound like some cheesy sci-fi movie, but, in fact, is a real process used to make energy around the world. Nuclear power. But many critics and concerned citizens alike argue that it’s not worth it. The controversy around nuclear power only grows each year as the need for clean power increases- but is nuclear power the ‘silver bullet’ to the energy crisis or a risky gamble that we can’t afford to make?
Pros
The first question many ask is why, why use radioactive uranium instead of simple coal or oil? Think of it this way- Nuclear reactors make thirty-five tons of waste each year. Seems like a lot, right? But, coal plants make over 15 tons of waste…per minute. That’s over seven billion tons per year! ( Enc. America 2) Also, reactors release absolutely no emissions – gasses – into the air. That means they don’t contribute to global warming at all. (NEI 2)
Not only are nuclear reactors environmentally friendly, they are also economical, too. The building of a reactor is a big project, so it ads many jobs to the US. By using reactors, we lower our foreign fuel dependence by over 2.1 billion barrels since 1979- that’s billions of dollars that stays in the wallet of the United States. (NEI 2)
Many people who fear nuclear power imagine a nuclear meltdown to be like an atomic bomb – Mass destruction, mushroom clouds, the lot. But really, the truth is, no matter what, that can’t happen. There just simply isn’t enough uranium to explode. (NEI-2, 1) At a nuclear power plant, all disaster scenarios are considered and multiple safety systems are implemented against them. For example, plants have a wide variety of sensors and monitors measuring everything from temperature, water pressure, water level, and many other things. If any of these sense something wrong, the plant will immediately and automatically shut its self down. (NEI-2, 2) Not only that, but there are many physical barriers as well; ceramic pellets that hold the fuel and the waste; fuel rods made of a sturdy zirconium alloy; a large steel, sealed container with eight-inch wall; and last but not least, the massive concrete structure that is the plant itself.
Nuclear energy is a very powerful source of energy. Just a little bit is required to make large amounts of electricity, which powers 1 in 5 households in the U.S. Nuclear energy has been advanced over the years and has been relied on heavily by many countries today.
Nuclear energy must be a consideration for the future with the rapidly depleting supply of fossil fuels. This type of energy can be created through nuclear fission and nuclear fusion. Nuclear fission is the splitting of a heavy atom into two or more parts, releasing huge amounts of energy. The release of energy can be controlled and captured for generating electricity. Nuclear fusion involves bombarding hydrogen atoms together to form helium. In the long run, nuclear fusion has greater potential than fission.
One of the many benefits of Nuclear energy is that it is completely emission free, in fact, more than 70% of the clean energy produced in the United States comes from nuclear (“11 Facts about Nuclear Energy”) With those lack of emissions we will see a reduction in the
The world's natural resources are being consumed at an alarming rate. As these resources diminish, people will be seeking alternative sources by which to generate electricity for heat and light. The only practical short-term solution for the energy/pollution crisis should be nuclear power because it is available, cleaner and safer.
Not only is nuclear power friendly to the environment, but it is almost always available, and many countries are starting to use it more. Renewable energy sources like solar and wind en...
Nuclear Energy has many proponents and much opposition. Many of the groups that oppose nuclear power have legitimate concerns, mainly with the dangers of nuclear material in relation with human health concerns and environmental troubles that are risked by allowing nuclear power plants to increase in number. Yet, many of these opposition groups have made outspoken and radical claims about the “hidden” motives of why nuclear power is promoted and subsidized by our federal government. For example, The Nuclear Information and Resource Service claim that the federal government has the intention of committing genocide against Native Americans because uranium mining is predominantly done on reservations. Another cry out by nuclear power opponents is the constant reliving of the few nuclear mishaps that occurred decades ago, at Chernobyl or Three Mile Island. No doubt, past accidents have happened worldwide and are important reminders to not play around with nuclear material, but technology has improved as well, a fact opponents fail to consider. Many of these organizations feel that other sources should be used to supply America’s energy needs. These types of statements tag many opponents to nuclear energy as misinformed, out of touch with scientific facts, or just closed minded to the whole concept of nuclear power. On the other hand, the proponents of nuclear energy like President Bush see it as cheap, and environmentally friendly. As a result, President Bush passed the Comprehensive Energy Bill in 2005 that would increase production of all types of energy, including nuclear, by giving subsidies and tax breaks to nuclear power producers. Keeping safe America’s capabilities for generating electric power by way of nuclear e...
Nuclear energy is produced during the process named nuclear fission or nuclear fusion. The development of nuclear energy started in the 20th century and there is now worldwide recognition for using nuclear energy. Popular countries that operates nuclear power are United States, France, Japan, and Russia, the nuclear energy generates up to 6% of the world’s electricity supplies. Even though the energy is mostly used by many countries, but it may causes side effect to the living things in the environment. (WNA, 2012)
Nuclear power is generated by using electricity created during a controlled fission or fusion reaction (“Nuclear Energy.” Global Issues in Context Online Collection). Nuclear fission is a process that releases energy when a nucleus in one atom is separated into two nuclei. Nuclear fusion occurs when the nuclei of two hydrogen atoms are fused together producing a larger nuclei along with energy (“Nuclear Energy.” Opposing Viewpoints Online Collection). In the 1950s, the use of nuclear power became a realistic idea for countries with nuclear capabilities and nuclear power programs (“Nuclear Energy.” Global Issues in Context Online Collection). The international nuclear program grew rapidly and by 1999 there were 436 nuclear power plants in 32 different counties. The United States, Japan, Canada, Russia, India and France remain the largest users of nuclear energy since the 1990s; however, the dependency on nuclear power varies greatly around the world because of differences in the individual nuclear power programs availability of needed resources (“Nuclear Energy.” Opposing Viewpoints Online Collection).
Media coverage of such cases have made the public less comfortable with the idea of moving further towards nuclear power and they only opt for reducing human activities to reduce global warming. It is true that there have been some notable disasters involving nuclear power, but compared to other power systems, nuclear power has an impressive track record. First, it is less harmful and second, it will be able to cater for the growing world population. Nuclear power produces clean energy and it delivers it at a cost that is competitive in the energy market (Patterson). According to the US Energy Information Administration, there are currently 65 such plants in the Unite States (National Research Council). They produce 19 percent of the total US energy generation.
The use of nuclear energy has increased in the United States since 1973. Nuclear energy's share of U.S. electricity generation has grown from 4 percent in 1973 to 19 percent in 1998. This is excellent news for the environment. Nuclear energy and hydropower are the cleanest large-scale means of electricity production. Since nuclear power plants do not burn fuel, they emit no combustion byproducts—like carbon dioxide—into the atmosphere (www.nei.org). Nuclear power can come from the fission of Uranium, plutonium or thorium or the fusion of hydrogen into helium. Today uranium (U-235 and U-238) is most commonly used in the production of nuclear energy. The expa...
The energy industry is beginning to change. In today’s modern world, governments across the globe are shifting their focuses from traditional sources of power, like the burning coal and oil, to the more complex and scientific nuclear power supply. This relatively new system uses powerful fuel sources and produces little to no emissions while outputting enough energy to fulfill the world’s power needs (Community Science, n.d.). But while nuclear power seems to be a perfect energy source, no power production system is without faults, and nuclear reactors are no exception, with their flaws manifesting in the form of safety. Nuclear reactors employ complex systems involving pressure and heat. If any of these systems dysfunctions, the reactor can leak or even explode releasing tons of highly radioactive elements into the environment. Anyone who works at or near a nuclear reactor is constantly in danger of being exposed to a nuclear incident similar to the ones that occurred at the Chernobyl and Fukushima Daiichi plants. These major accidents along with the unresolved problems with the design and function of nuclear reactors, as well as the economic and health issues that nuclear reactors present serve to show that nuclear energy sources are not worth the service that they provide and are too dangerous to routinely use.
To begin, nuclear power is produced by nuclear fission, which is the splitting of an atom to start a chain reaction (“11 Facts”). This chain reaction produces massive amounts of heat. Nuclear reactors take advantage of this heat by pumping water into the reactor, which in turn produces steam. The steam then becomes pressurized through a pipeline and exits into a turbine (“How do Nuclear”). The pressurized steam causes the turbine blades to spin, producing power which is linked to a generator for use in the main power lines. When the steam passes the turbine blades, it goes past cooled pipes and condensates (“How do Nuclear”). After the condensation process is finished and the steam reverts back to water, it is pumped into the reactor again, thus completing the process of producing nuclear-based power.
Technological and accidental hazards can be occur without warning and can be both hazardous material incidents and failures at nuclear power plant. In some cases, victims that have been exposed to harmful chemicals or radiation show little to no symptoms until several years later. There are an increasing number of new substances and chemicals being manufactured which has increased the likelihood of a hazardous material spill or release. This also increases the risk to the environment and to the health and safety of a community.
Nuclear power, the use of exothermic nuclear processes to produce an enormous amount of electricity and heat for domestic, medical, military and industrial purposes i.e. “By the end of 2012 2346.3 kilowatt hours (KWh) of electricity was generated by nuclear reactors around the world” (International atomic energy agency Vienna, 2013, p.13). However, with that been said it is evident that the process of generating electricity from a nuclear reactor has numerous health and environmental safety issues.
As one of the greatest alternatives to fossil fuels, an important advantage of nuclear energy is the significantly lower emission rate of CO2 in comparison to plants which use coal and natural gas.2 Nuclear power is not reliant on fossil fuels and therefore producing energy by this method reduces pollution and the contribution to climate change. However, whilst the actual process of generating energy releases few emissions, uranium must be mined and purified and in the past this has not always been an environmentally clean process.2 Ultimately, uranium will one day run out, but nuclear reactors are versatile and may also run on Thorium. Despite being finite, this would allow nuclear power stations to function for a longer period of time.