Fukushima Nuclear Disaster
It has been three years since Japan experienced its worst ever earthquake, causing serious damage to Fukushima Daiichi nuclear power plant. The 9 magnitude quake and its resulting tsunami sent three of Japan's reactors into meltdown. This led to reactors being exposed to the environment and radiation waste able to seep into the ground as runoff and affect more areas. Could the government have done more in the early stages of this disaster to prevent any more horrible damage on the environment? Perhaps even lowering the or dramastically reducing the cost and how much more Japan has to pay in order to clean up this mess? In this essay, I hope to explain my research on the disaster in Fukushima, Japan and hope to give
…show more content…
The 15 metre tsunami inundated about 560 sq km and resulted in a human death toll of about 19,000 and much damage to coastal ports and towns, with over a million buildings destroyed or partly collapsed. !2 out of 13 back up generators were disabled whenever the tsunami reached the nuclear plant. There were no fatalities due to radiation at the spot but only deaths caused by the natural disasters. The company TEPCO (Tokyo Electric Power Company) would have sent in a hardened emergency response but it would have been in vain since radiation was already being spilled out and the condition around the area was not the best to repair the damages and contain the radiation from contaminating the water supplies and entering the tide of the tsunami and back to the ocean. Now, the area where the nuclear plant was located was suppose to be the best area to protect the plant from any disaster and preventing damage but 18 years before 2011 scientific knowledge figured out that a major disaster would be able to reach the plant, yet TEPCO discussed it a bit with the Japanese …show more content…
(2015, September 25). The Human Consequences of the Fukushima Dai-ichi Nuclear Power Plant Accidents. Retrieved October 26, 2016, from http://www.globalresearch.ca/the-human-consequences-of-the-fukushima-dai-ichi-nuclear-power-plant-accidents/5478670
Normile, D. (2016, March 2). Five years after the meltdown, is it safe to live near Fukushima? Retrieved October 26, 2016, from http://www.sciencemag.org/news/2016/03/five-years-after-meltdown-it-safe-live-near-fukushima
Soble, J., JS. (2016, March 10). Fukushima Keeps Fighting Radioactive Tide 5 Years After Disaster. Retrieved October 26, 2016, from http://www.nytimes.com/2016/03/11/world/asia/japan-fukushima-nuclear-disaster.html?_r=0
Ferris, R., RF. (2016, March 10). U.S. watches as Fukushima continues to leak radiation. Retrieved October 26, 2016, from http://www.cnbc.com/2016/03/10/us-watches-as-fukushima-continues-to-leak-radiation.html
Ripley, W., WR, Ogura, J., JO, & Griffiths, J. (2016, March 11). Fukushima: Five years after Japan's worst nuclear disaster. Retrieved October 26, 2016, from http://www.cnn.com/2016/03/08/asia/fukushima-five-year-anniversary/
What Happened? The Nuclear Accident. (2016, March 11). Retrieved October 26, 2016, from
Lewis, H. W. (1986). The Accident at the Chernobyl' Nuclear Power Plant and Its Consequences. Environment, 28(9), 25.
Steele Dorn, Ka ren. “Time bombs keep going off for cancer-plagued families in Idaho who lived downwind of nuclear testing in the 1950s.” Downwinders (October 24, 2004). 11 April 2005
Early in the morning of April 27, 1986, the world experienced its largest nuclear disaster ever (Gould 40). While violating safety protocol during a test, Reactor 4 at the Chernobyl power plant was placed in a severely unstable state, and in a matter of seconds the reactor output shot up to 120 times the rated output (Flavin 8). The resulting steam explosion tossed aside the reactor’s 1,000 ton concrete covering and released radioactive particles up to one and a half miles into the sky (Gould 38). The explosion and resulting fires caused 31 immediate deaths and over a thousand injuries, including radiation poisoning (Flavin 5). After the accident more than 135,000 people were evacuated from their Ukrainian homes, but the major fallout occurred outside of the Soviet Union’s borders. Smaller radioactive particles were carried in the atmosphere until they returned to earth via precipitation (Gould 43). The Soviets quickly seeded clouds to prevent rainfall over their own land, so most of the radioactivity burdened Western Europe, Scandinavia, and the Atlantic and Arctic Oceans (Flavin 12). This truly international disaster had far reaching effects; some of these were on health, the environment, social standards, and politics.
Chernobyl, one word that still strikes pain and fear in the hearts of many, even after 28 years is still causing serious damage. It was largest nuclear disaster ever, Chernobyl was “. . . about 400 times more potent than the bomb dropped on Hiroshima during World War II . . .” (Walmsley “26 years on: helping Chernobyl's children”). The disaster was not immediately seen as a large threat, and this is why so many lives were taken or destroyed.
Included in the release were radioactive elements with a half-life of 16 million years. Yet, we humans cannot defend ourselves from such radiation because we are biologically not fortified to do so.... ... middle of paper ... ...
I. (Gain Attention and Interest): March 11, 2011. 2:45 pm. Operations at the Fukushima Daiichi Nuclear Power Plant continued as usual. At 2:46 pm a massive 9.0 earthquake strikes the island of Japan. All nuclear reactors on the island shut down automatically as a response to the earthquake. At Fukushima, emergency procedures are automatically enabled to shut down reactors and cool spent nuclear fuel before it melts-down in a catastrophic explosion. The situation seems under control, emergency diesel generators located in the basement of the plant activate and workers breathe a sigh of relief that the reactors are stabilizing. Then 41 minutes later at 3:27 pm the unthinkable occurs. As workers monitored the situation from within the plant, citizens from the adjacent town ran from the coastline as a 49 foot tsunami approached. The tsunami came swiftly and flooded the coastline situated Fukushima plant. Emergency generators were destroyed and cooling systems failed. Within hours, a chain of events led to an explosion of reactor 1 of the plant. One by one in the subsequent days reactors 2, and 3 suffered similar fates as explosions destroyed containment cases and the structures surrounding the reactors (Fukushima Accident). Intense amount...
Scenario: Sirens blaring in the middle of the night and chaos erupting from every direction. At precisely 1:21 a.m. on April 26th 1986 in Chernobyl, in a city with upwards of fifty thousand people located next to Pripiat River, a reactor exploded and released up to thirty to forty times the radiation of the Hiroshima and Nagasaki bombing. But one would never think of that a disaster of this magnitude would ever happen because the plant workers are among some of the most highly trained in the universe. Millions of people had to suffer from the greatest nuclear disaster ever known to mankind.
...r more than a hundred thousand years. (Lindsay, 2002) The Chernobyl Accident in 1986 which has not taken the right safety measurement by the power plants operator caused the nuclear power plant to release radiation. There were more than 30 people found dead in this accident impute to radiation exposure. (WNA, 2012; U.S.NRC, 2011)
World Health Organization. (2006). Health Effects of the Chernobyl accident: an Overview. Retrieved November 1st, 2013 from http://www.who.int/ionizing_radiation/chernobyl/backgrounder/en/index.html
There is a range of safety concerns in regards to nuclear power with one of these being the effects of radiation resulting from a nuclear accident. Research shows that there is a link between exposure to radiation and the development of cancer (Zakaib 2011) whist Preston (2012) express’s concerns that people exposed to radiation may not be able to see the effects of radiation exposure for several years as was the case in Chernobyl. Furthermore, people are unable to move back into the vicinity of reactors that have been involved in an incident due to their fear of radiation as is the chase in Fukishima (Cyranoski & Brumfiel 2011) and in the areas surrounding Chernobyl (Berton 2006). Governments are increasingly becoming more stringent in the levels of radiation in which people are exposed to with this evident in Fukishma, where the Japanese government evacuated people living within a 30km radius of the plant (Evacuation Orders and Restricted Areas n.d.). As a result of nuclear accidents and the resulting radiation, support for nuclear power has diminished due to safety concerns.
Povinec, Pavel and Katsumi Hirose. Fukushima Accident: Radioactivity Impacts on the Environment. Boston: Newnes, 2013. Print.
mental degradation. The mass production of goods, in manufacturing industries, more so has led to a lot of pollutants being released into the atmosphere. These pollutants continue to degrade the environment. There are several forms of pollutions that continue to be heavily experienced as a result of the activities of Multi-National Corporations. The two most adverse types of pollution are water pollution and air pollution. They affect a lot of the systems that are in play.
4) "First Half of Chernobyl Cover on the Move." Chernobyl. N.p., n.d. Web. 06 May 2014.
The biggest damage is the radiation exposal to the people. 530,000 local recovery workers were exposed the radiation, the effective dose is same as fifty years of natural radiation exposure (IAEA, 1996). 31 nuclear power staffs and emergency workers were died by direct effect, and the Chernobyl Forum anticipates the total num...
There was a multitude of causes of the disaster in Japan. The first cause was a 9.0 magnitude earthquake that occurred off the coast of Japan. Japan is located in “The Ring of Fire,” an area in the Pacific Ocean that has multiple faults and earthquakes (Pedersen 13). Tectonic plates shifted off the North Pacific coast of Japan and created a massive earthquake. The next cause was a thirty-three foot wall of water that swept over cities and farmland in Japan (Branigan 2). Martin Fackler, a journalist, stated, “The quake churned up a devastating tsunami” (Fackler 3). The tsunami reached speeds of 497 miles per hour while approaching Japan (Fackler 3). The third and final reason of the disaster was that the cooling systems at multiple nuclear power plants failed. At Fukushima, a nuclear power plant in Sendai, Japan, the radioactive rods began to overheat due to the absence of water, which cools it. Explosions occurred at three of the reactors, which spewed radiation into the air (“Comparing nuclear power plant crises”). In conclusion, the earthquake, tsunami, and nuclear power plant issues were the causes of the disaster in Japan, but they also had a myriad of effects.