Fukushima Nuclear Disaster Industrial Studies Engineering Essay

TEPCO denoted as Tokyo Electric Power Company is a good known atomic power works operator in Japan. TEPCO manages 17 atomic reactors on its ain where 10 of them are in Fukushima Prefecture and 7 more in Niigata Kashiwazaki Kariwa. During its early ages, TEPCO is established with AA?1, 460 million in capital. Get downing from May 1, 1951, the company had contributed a batch in cut downing the electricity rates in Japan. Fukushima Daiichi was the first Nuclear Power installation for TEPCO. Each works is equipped with control suites, work Stationss, generators, turbines and curates. Every unit in the atomic power works has a applied scientist, operator, supervisor and crew members. The direction of the organisation that operates these installations is known as “ works operation ” . The intent of the works operation is to pull off the whole procedure of atomic power operation to bring forth electricity through steam that produced from atomic power.

When monolithic 9.0 temblor hits east seashore of Japan following by 14 metre tsunami as a sequence, Fukushima Daiichi Nuclear Power Plant experience meltdown set uping many abode of Japan until now. The consequence of the unexpected incident still carried by the people who exposed to radiation. Japan still implementing the recovery process all over the state to minimise the effects of the black incident. Harmonizing to a Nuclear Energy expert Thomas S. Drolet, “ things have decidedly changed for the Nipponese people. Radiation sensors are normally used everyplace from supermarkets to private abodes ” . Besides that, many other planetary atomic industry has supported these recovery by lending proficient expertness and counsel, and equipments. The intent of this study is to look into in deepness about Fukushima Nuclear Meltdown Disaster and to be cognizant of atomic catastrophe.

2.Management and Operation

2.1 The Management and it ‘s Structures.

The Board of Directors in TEPCO is consist of 16 managers that presently taking the company. Routinely, all the managers will set up a meeting among themselves one time a month or will keep particular meeting for some peculiar jobs. As a consequence from the meeting, the managers will come up with new ways to set up and advance TEPCO ‘s concern. During the treatment, they will supervise manager ‘s parts. Implementing Board of Directors ‘ thought and doing other of import determinations is Pull offing Directors. The Pull offing Directors uniting with other subscribers in the company will keep a meeting at least one time a hebdomad. In their meeting, they will put to death Board of Directors thoughts and any other direction issues that concerns the company.

The company ‘s fiscal auditing is acquire to done by 7 hearers, numbering four outside hearers. The hearers will badly do certain that the Board of Directors contributes to the company by go toing of import meetings, scrutinizing concern consequences and assets. Furthermore, TEPCO come with Assistant to the Auditor ‘s office to guarantee full clip working staff back up the hearers. Apart from that, an internal auditing organisation is formed in TEPCO to describe chief audits result to the Managing Directors when the meeting held ‘s and to improvize the consequences.

A particular guideline is established by the Board of Directors for internal control systems to guarantee right concern operation is done throughout the company. The guidelines fulfils the jurisprudence and ordinances to supply more efficient operations in the company. Risk direction is besides one of the chief measure taken by TEPCO. A separate commission lead by TEPCO ‘s president called Risk Management Committee is formed to forestall hazards that will consequence company ‘s operations. All organisation that trades every individual concern in the chief office have a chief Risk Management Manager which will oversee to forestall any hazardous operation.


2.2 The aims of the direction.

Management of TEPCO has few aims bonded to the colleagues to accomplish it as the company grows. TEPCO ‘s chief end is to guarantee that Japan will acquire a stable, low cost energy throughout its development. Besides that, they besides provide eco-friendly any other energy services tally with client demands. TEPCO besides wishes to research new societal and environmental enterprises. Reducing C in their operations is efficaciously being done as C bring injury to the environment. Meanwhile, TEPCO aims to increase the use of high-efficiency with low C energy founded from the researches and human resource to be implemented overseas. They determined to make a low-carbon epoch through put to deathing these attempts.

Other than that, TEPCO wants to make a convenient and comfy topographic point to populate in instead impacting from the effects from their company ‘s operations. Chiefly, they come out with their new end which desires to forestall any other atomic accidents to go on in future within their direction. Incident happened in Kashiwazaki-Kariwa Nuclear Power Plant and Fukushima Daiichi Nuclear Power Plant creates the new purpose and end for TEPCO direction for good.

3. Industrial Processes


A atomic power works is fundamentally a steam power works that is fuelled by a radioactive component, like U. The fuel is placed in a reactor and the person atoms are allowed to divide apart. The splitting procedure, which is known as fission, produces great sum of energy. This energy is used to heat H2O until it turns to steam. The steam pushes on turbines, which force spirals of wire to interact with a magnetic field therefore bring forthing electric current.

3.1 Operation Functions

TEPCO owns 17 power works where, 10 of it is in Fukushima Prefecture and 7 in Niigata Kashiwazaki Kariwa. The maximal capacity that all TEPCO ‘s power works to bring forth is 17,308 MW. Nuclear power contributes 40 % of the entire end product. In Fukushima Prefecture, there are two atomic based power works which is Fukushima Daiichi and Fukushima Daini. Fukushima Daiichi is capable of bring forthing 4,696MW where Daini produces 4,400MW. Meanwhile, in Kashiwazaki Kariwa, produces 8,212MW and bases as the universe most largest capacity power works.

4. Causes of accident

4.1 Natural Factors

When a 9.0 magnitude temblor work stoppages Japan on March 11, a about 45-feet tsunami signifiers and hits the east seashore. It is believed that multiple smaller magnitude temblors had antecedently occurred in the same country. This clip the temblor was a rare one because of its complex dual temblor for a continuance of 3 proceedingss. Even though the temblor was 112 stat mis off from the E seashore, these calamity bring the dead rate to 15,000 people and around 8,000 people went losing. Ten atomic power workss that were runing in the country including Fukushima Daiichi atomic installation. Fukushima Daiichi Nuclear Power Plant was effected severely from the natural catastrophe. Almost half an hr after the temblor, Fukushima Daiichi Nuclear power works lost its power therefore triping exigency generators to back up the electronic equipment and to kick-in coolant for the reactors. Unfortunately, the tsunami that comes sequence to the temblor flooded the atomic site doing 12 of 13 back-up generators, heat money changers for dumping reactor waste heat and decay heat to sea to travel offline. The three reactors lost to stabilise a suited reactor chilling and H2O circulation maps. Other than that, the electrical switchgear became disable. Reactor 4 causes job get downing twenty-four hours 5.

4.2 Design and Process Factors

The design and procedure of a atomic works plays a immense function in runing it. Fukushima Daiichi Nuclear catastrophe besides connected to a few design and procedure factor that caused the accident. Even though the applied scientists take tsunami as a factor for the initial works design, the merely expected a maximal moving ridge of 10.5 pess therefore thought the works was safe on a 13-foot drop. When the tsunami formed a 45-feet moving ridge, these cliff defense mechanism design becomes unequal. Besides that, power outages was one of the factors caused the accident. The diesel generators in the workss has been compromised because it is flooded during the tsunami. That clearly shows that the Daiichi power works had a terrible design failure. These diesel generators location should non be vulnerable and protected from inundations and easy accessible because it is the first line of defense mechanism in instance of exigency.

Mark 1 design is a design for boiling H2O reactor besides known as ‘BWR ‘ was considered as the obvious factor that cause the accident. The contention starts when is foremost developed in 1960 ‘s. BWR is cheaper and easier to construct compared to supercharge H2O reactors ( PWR ) since it has much more dilutant and smaller containment shell on the reactor vas. After all the negative feedback about Mark 1 design, Japan disputes these unfavorable judgments. Three hebdomads after, the containment construction has failed and serious radiological leaks go on. That publicized that the storage pool for exhausted fuel rods is located on the 4th floor of the reactor to do it easier to travel the rods from the reactor to the pools. However, these design made the storage pools unaccessible when the radiation is high and makes the rods overheat due to miss of independent power to the pools.

Furthermore, the six reactors make the country really concentrated and power loss is common because of the concentrated country of the six reactors. Even if merely one of the six reactor experiences failure, opportunities are high to consequence other reactors nearby. Nipponese atomic industry and TEPCO ignored fatal warning about the containment vas and believed to hold dirt associating falsified informations and unreported accidents. They have besides ignored warning from professors that protest due to the atomic safety.

5. Consequences of the effects of the accident

5.1 Health

Peoples of Japan is exposed to radiation because of this incident. The Nipponese authorities decided to evacuate about 70,000 people who is 20km off from the works. It has been extended to five communities outside the danger zone. Citizens that lives within 30km from the works is told to go forth the country or do their house airtight and remain indoors. These is to cut down the hazard to human wellness. Radioactive stuffs that leaks out from the reactor will disintegrate automatically to bring forth ionizing radiation, which causes malignant neoplastic disease to human wellness. it tends to interrupt the chemical bond among the atoms and molecules that form our tissues. The organic structure will try to mend this harm to the Deoxyribonucleic acid but, high doses of radiation will do the fix impossible.

Some countries around even record doses every bit high as 22 paradoxical sleep which contains I as the largest constituent. The rate of radiation dropped quickly by 50 % every eight yearss. The major release of radionuclides numbering durable cesium are the chief ground for the emptying. Researches all over the universe estimation malignant neoplastic disease disease will run the people near the power works because of its long term effects.

5.2 Environment and ecology

Many high degrees of radioactive iodine-131, cesium-137 and cesium-134 were found in saltwater around Fukushima Daiichi Nuclear power works. Rainfall in California, Idaho and Minnesota detected a few sum of radioactive elements same as Nipponese atomic incident. These shows how the radiation from the catastrophe have affected the marine life. The contaminated H2O will thin fast and insured that no more accomplished H2O to the sea. Some radiation happened to be carried by the air currents but it is dispersed it will non convey any wellness dainty finally. Migratory fish near the power works which effected from the radiation will do a serious wellness dainty when the travels around and became nutrient or commercial merchandises. Other than that, the seafood around the atomic workss is extremely probated.

Butterflies is besides effected through the radiation exposure. Researches has proves that butterflies around the country is undergoing a alone sort of mutant. The colors, the construction and the unrecorded span is severely affected. It is considered as one of the serious dainty because of the migration and reproduction. Radioecologists with the Gallic Institute of Radioprotection and Nuclear Safety ( ISRN ) in Cadarache provinces that, ‘ The squad found that flatfish, mollusk, crustaceans and brown seaweed offshore of Fukushima received radiation doses that, harmonizing to known dose-effect relationships, are likely to markedly increase mortality ‘ .

Trees and workss around the country is besides contaminated because of the dirt that contains high concentration of radioisotopes. Because of the certain season in the Japan, non many animate beings affected from the radiation.

5.3 Damages cost/Health costs/ Environment cost/Compensation cost.

TEPCO agrees to be responsible to the accident go on under their surveillance. The compensation for amendss is given by TEPCO get downing now until 20 old ages from the day of the month of the accident. The sum of these compensation will non be a fixed sum or a limited sum because TEPCO takes limitless liability. TEPCO estimated that the cost of compensation will be around JPY 4.5 trillion ( EUR 43.9 million ) for those who lost their places because of the incident. TEPCO will hold to pay back to Compensation Facilitation Corporation because they will supply TEPCO fiscal support for the compensation.

Around 40 billion is needed by TEPCO to cover up all the amendss cost and to handle the affected countries and to stabilise the status. Financial assistance from the Nipponese authorities and other organisation were given to TEPCO for these intent.

6. Improvement and Prevention

6.1 Design and Process

TEPCO should better their design of atomic power works to avoid future catastrophes to go on. They should non undervalue the effects from the tsunami and temblors. They besides should supply deluging protection for the generators that back up the power works. TEPCO should avoid constructing few reactors in the same topographic point which is extremely delicate and earthquake-common country. Chiefly, the direction and the applied scientists should avoid utilizing Mark 1 design because non safe plenty when a catastrophe happens.

6.2 Human resorts

For betterment in human resource, they have appoint a lasting commission in National Diet ( Parliament ) to watch over the probes and hearing of Fukushima Daiichi catastrophe. Other than that, TEPCO have to develop their colleague more often to do them more efficient during the exigency period. The authorities should organize a new jurisprudence that makes all the atomic power works to run into the criterions of constructing power works.

6.3 Safety and Health

In safety and wellness portion, the authorities or TEPCO should make a understanding between the occupants for monitoring and decontaminating radiation affected countries. Government infirmaries should give free checking for those affected from the radiation to minimise the decease toll.

7. Decision

Nuclear power works catastrophe is one of the most unsafe catastrophe in the universe. It is capable of destructing many lives in Earth and have long term consequence. Fukushima Daiichi was under TEPCO ‘s surveillance every bit good as other atomic power workss in Japan. It provides changeless electric power to Japan and proved to cut down the electricity rates. On March 11, when massive scaled temblor hits Japan and followed by tsunami, the power works was damaged eventually ensuing a meltdown. This is due to the power loss and back u generator failure. Until now, there are effects that people undergo due to this catastrophe. Not merely wellness effects, but environmental effects, ecology effects and atomic power works amendss every bit good. To forestall these catastrophe to go on once more, few safety safeguard and criterions should TEPCO and Nipponese authorities follow. Last but non least, the power works operators should be rigorous and forecast all the opportunities for catastrophe to go on, to hold right processs when catastrophe happens, and do their power works design-error free.