Monday, 21 October 2013

Hi Top 10 of Anthropogenic and natural environmental disasters list.

Hi Anthropogenic environmental disasters


1. Bhopal: the Union Carbide gas leak
2. Chernobyl: Russian nuclear power plant explosion

3. Seveso: Italian dioxin crisis
4. The 1952 London smog disaster
5. Major oil spills of the 20th and 21st century
6. The Love Canal chemical waste dump
7. The Baia Mare cyanide spill
8. The European BSE crisis
9. Spanish waste water spill
10. The Three Mile Island near nuclear disaster

1. Bhopal: the Union Carbide gas leak



December 3, 1984 has become a memorable day for the city of Bhopal in Madya Pradesh county, India. Shortly after midnight, a poisonous gas cloud escaped from the Union Carbide India Limited (UCIL) pesticide factory. The cloud contained 15 metric tons of methyl isocyanate (MIC), covering an area of more than 30 square miles. The gas leak killed at least 4.000 local residents instantly and caused health problems such as oedema for at least 50.000 to perhaps 500.000 people. These health problems killed around 15.000 more victims in the years that followed. Approximately 100.000 people still suffer from chronic disease consequential to gas exposure, today. Research conducted by the BBC in 2004 pointed out that this pollution still causes people to fall ill, and ten more die every year. This event is now known as the worst industrial environmental disaster to ever have occurred.

(Note that the numbers of victims are not absolute, as they are different for every organization that describes the accident in books or on their websites. Particularly the Union Carbide company states a much lower total number of victims.)

The cause of the accident has been researched after the disaster. Apparently water ended up in MIC storage tanks, causing an exothermal reaction that released an amount of poisonous gas large enough to open the safety valves. Normally scrubbers would intercept escaping gas, but these were temporarily out of order for repair.

Research showed that factory personnel neglected a number of safety procedures. There were no valves to prevent water from entering the storage tanks. The cooling installation of the tanks and the flaring installation that might have flared the gas that was released were out of order (fig. 1).
Safety was very low in this factory of Union Carbide, compared to its other locations. The safety procedures were neglected because of budget cuts.

Figure 1: overview of events that led to the Bhopal disaster (Bhopal Medical Appeal, 2002)

Union Carbide was accused of deliberate evasion of regular safety procedures. During lawsuits where victims demanded compensation, documents were revealed which proved that Union Carbide regularly used untested technology in the Bhopal factory. When the gas leak occurred doctors were not informed of the nature of the gas. This caused the correct treatment and emergency measures to be held off.


The manager of Union Carbide, Warren Anderson, was accused of culpable homicide. However, he did not occur in court and both the Indian and American government did not take adequate measures to make sure this man was tried. This led to a series of protests organized by environmental organizations, such as Greenpeace.



Union Carbide denied responsibility for the accident on their website, stating that: “The Bhopal plant was owned and operated by Union Carbide India, Limited (UCIL), an Indian company in which Union Carbide Corporation held just over half the stock. The other stockholders included Indian financial institutions and thousands of private investors in India. The plant was designed, built, and managed by UCIL using Indian consultants and workers.



About the cause of the accident, they claimed that: “A thorough investigation was conducted by the engineering consulting firm Arthur D. Little. Its conclusion: the gas leak could only have been caused by deliberate sabotage. Someone purposely put water in the gas storage tank, causing a massive chemical reaction. Process safety systems had been put in place that would have kept the water from entering into the tank by accident.



After a long procedure in February 1989 eventually a settlement was achieved. Union Carbide promised to pay 470 million dollars compensation. Only a very small part of this compensation was paid to survivors of the environmental disaster. Union Carbide states on its website that it paid the full settlement to the Indian government within 10 days time. In 2004 the Supreme Court forced the Indian government to pay the remaining 330 million dollars compensation to the victims and their families.



Union Carbide sold the Indian factory to a battery producer. In 2001 Dow Chemical Company took control of Union Carbide. These take-overs led to a discussion on responsibility for cleaning up the tons of poisonous waste that are still present in the environment consequential to the 1984 disaster. Environmental activists are trying to convince Dow Chemical Company to clean up this potential minefield of toxic chemicals. These could cause nervous system failure, liver and kidney disease and possibly cancer for many years to come.

Today, the location is still polluted with thousands of tons of toxic chemicals, such as hexachlorobenzene and mercury. These chemicals are stored in open barrels. Rainfall causes rinsing out of pollution to local drinking water sources. 

According to BBC research, some wells even contain up to 500 times the legal limit of these toxins. Local residents still suffer from a number of diseases, which appear to be very uncommon among people that do not live in the disaster area.





2. Chernobyl: Russian nuclear power plant explosion



On April 26, 1986 tests were conducted in nuclear reactor 4 of the Chernobyl nuclear power plant in Ukraine, located 80 miles from Kiev. These tests required part of the security system to be shut down. Errors in the reactor design and errors in judgment of the personnel of the power plant caused cooling water to start boiling. This caused reactor stress, resulting in energy production increases to ten times the normal level. Temperatures reached more than 2000 °C, causing fuel rod melting and further cooling water boiling.

Extreme pressures in cooling water pipes resulted in cracks, which caused steam to escape. At 1:23h in the middle of the night the escaped steam caused an explosion slamming off the roof of the building, starting a major fire and simultaneously forming an atmospheric cloud containing approximately 185 to 250 million curies of radioactive material.

Fire and explosion instantly killed 31 people. Two days after the explosion, the Swedish national radio reported that 10.000 times the normal amount of cesium-137 existed in the atmosphere, prompting Moscow to officially respond. The following day over 135.000 people were evacuated from within an 30 km radius of the accident. This area was labelled the 'special zone'. The evacuation of the special zone was permanent, as the high levels of radioactivity have been predicted to exist for several centuries.

The radioactive cloud was blown north and northwest by wind, causing the first mention of the accident to be after radioactivity measurements in Sweden. The cloud covered a large area in Europe. On May 2, the cloud even reached the Netherlands, causing fresh fruit and vegetable consumption to be prohibited.

There are many estimates concerning the number of victims that suffer from symptoms induced by radiation. Reliable data is still lacking. The World Health Organization (WHO) stated that approximately 800.000 people have worked on fire extinguishing, restoring the reactor and cleaning up pollution in the first year after the accident. These people only remained in the area for short periods of time to prevent health problems. Ukrainian government figures show that more than 8.000 Ukrainians have died as a result of exposure to radiation during the first cleanup operation. It is stated that the eventual death toll resulting from the nuclear explosion ranges from 30 to 300.000 and many unofficial sources put the toll over 400.000.

The people that have lived in the Chernobyl area during the accident suffer from various health problems. Immediately following the accident, hundreds of people were diagnosed with radiation sickness. Particularly in Belarus, there has been a dramatic increase in the number of thyroid cancers (2.400%) and leukemia (100%).

Children of Chernobyl victims suffer from birth defects (250% increase), causing cancer and heart diseases. Approximately 64% of all Ukrainian children under 15 suffering from cancer lived in the most contaminated areas. Genetic defects often result in mutations causing missing limbs (see picture).

The extraordinary increase in the number of these illnesses can be associated with the exposure of the population to the aggressive radioactive particles released by the Chernobyl explosion. Four dangerous substances were released, which are not identified as such by our bodies:

Plutonium is recognized as iron by the body and distributed by the blood system. It causes cancers and blood disorders. It has a half-life of 24.400 years and will be present in a 30 km radius around the Chernobyl site for many centuries to come
Cesium 137 is mistaken for potassium and in absorbed by the muscles
Iodine 131 is not recognized as a radioactive substance and is therefore absorbed by the thyroid gland. It causes thyroid cancer, particularly in children between 0 and 18 years old. An operation can save the children, but a scar known as the 'Belorussian Necklace' marks them as Chernobyl victims forever
Strontium 90 is recognized by the body as calcium and causes leukemia upon distribution throughout the bone structure

Governments in the region estimate that up to seven million people were affected by the accident. Four years after the accident, 627.000 Soviets were already under permanent observation for symptoms and effects of radiation poisoning. The number of individuals that will ultimately be affected by the Chernobyl disaster has been estimated as high as 11 times that of the cancer deaths expected from the combined 1945 bombings of Hiroshima and Nagasaki. Today it is believed that over 4 million people in the Ukraine, Belarus and western Russia still live on contaminated ground.
All Chernobyl-related health effects and the fear of death from radiation have resulted in mental defects in many children. Suicide rates have increased 1.000% in the area.

After the explosion reactor 4 was wrapped in a concrete sarcophagus (see picture) in November 1986 to protect the area. After some time the other three reactors where running again. In 1989 the construction of a 5th and 6th reactor was abandoned. There was some discussion going on about the safety of the sarcophagus of reactor 4. On the long run this would not be a very solid construction and according to many it must be replaced. We now know that this replacement must be carried out soon, because the reactor has begun to leak radiation. Holes and fissures in the structure now cover 1.000 square meters. These cracks and holes are further exacerbated by the intense heat inside the reactor, which is still over 200 degrees Celsius.

The replacement of the sarcophagus is a very costly operation and is therefore still under discussion. It is also very uncertain if there is even a construction method that would guarantee permanent protection from the large bulk of radiation still present in the remains of reactor 4.

After the Chernobyl disaster international organizations pressured the Ukrainian government to close the remaining reactors. This was disadvantageous for the country, because it derived 5% of its power supply from the power plant. Eventually, it was decided that the power plant would be closed in winter of the year 2000. The Ukrainian government tried to obtain a postponement, but the reactor was nevertheless closed in December 2000.

Dangerous chemicals emitted by the nuclear power plant after the explosion continue to spread by bush fires and weather conditions, re-contaminating soil, air and water. New radiation hot spots are still being discovered today in Belarus and Ukraine and evacuations will need to continue well into the 21st century. Plans have now been made to build a 20.000 ton steel shell to replace the failed sarcophagus around reactor 4. If construction is successful, this will be ready by 2007.








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