Understanding Nuclear Emergencies and Disaster Management in India

 
 
 
 
4
th
 Semester
Paper-4016
ENVIRONMENTAL GEOGRAPHY AND
DISASTER MANAGEMENT
 
NUCLEAR EXPLOSIONS
The phenomenal growth in the applications of radioisotopes and radiation
technology has helped in improving the quality of life of the human race.
India is also one amongst the seven declared nuclear weapon states, which
uses nuclear technology for strategic purposes.
The growth in the application of nuclear science and technology in the
fields of power generation, medicine, industry, agriculture, research and
defence has led to an increase in the risk of occurrence of Nuclear and
Radiological emergencies.
India is also one amongst the seven declared nuclear weapon states, which
uses nuclear technology for strategic purposes.
Nuclear plants, in general, adopt a defense- in-depth approach and multiple
physical barriers to ensure that radioactivity is contained at all times.
Emergency preparedness and response plans are in place to cope with
nuclear or radiological emergency scenarios ranging from minor incidents
like a small spillage of radioactive material to a major nuclear accident
releasing large-scale radioactivity (like Chernobyl) in the public domain.
 
 
 
However, nuclear emergencies can still arise due to factors beyond
the control of the operating agencies; e.g., human error, system
failure, sabotage, earthquake, cyclone, flood, etc
Nuclear or radiological emergency disaster scenario
Any radiation incident resulting in or having a potential to result
in exposure to and/or contamination of the workers or the public
in excess of the respective permissible limits can be termed is
a nuclear/ radiological emergency.
These emergencies can be broadly classified in the following
manner:
1. An accident-taking place in any nuclear facility of the nuclear fuel
cycle.
2. A 'criticality' accident in a nuclear fuel cycle facility where
an uncontrolled nuclear chain reaction takes-place.
 
An accident during the transportation of radioactive material.
4. The Male-volent use of radioactive material as Radiological
Dispersal Device (RDD) by terrorists.
5. A large-scale nuclear disaster resulting from a nuclear weapon
attack (as had happened at Hiroshima and Nagasaki in Japan),
The International Atomic Energy Agency (IAEA) classifies the
above emergency scenarios under- two broad categories nuclear and
radiological:
• A nuclear emergency refers to an emergency situation in which there
is, or is presumed to be, a hazard due to the release of energy along
with radiation from a nuclear chain reaction.
All other emergency situations, which have the potential hazard of
radiation exposure due to decay of radioisotopes are classified as
radiological emergencies.
 
Institutional mechanism for it
The Government of India has identified Department of Atomic
Energy (DAE) as the nodal agency for providing the necessary
technical inputs to the national or local.
The Ministry of Home Affairs (MHA) is the nodal ministry in such
emergencies. For this purpose, a Crisis Management Group
(CMG) has been functioning since 1987 at DAE.
Crisis Management Group (CMG)
It is immediately activated and it coordinates with the local
authority in the -affected area.
All the concerning authorities at the centre (NCMC/
NEC/NDMA)- to ensure that the necessary technical- inputs are
available to respond to the nuclear/radiological' emergency.
 
Medical preparedness for nuclear emergencies
• In each constituent unit of DAE, a few doctors have been dedicated
and given the necessary training in the medical management of
radiation emergencies.
• All nuclear power plants and the Bhabha Atomic Research
Centre
 (BARC) 
are equipped with radiation monitoring instruments,
have personnel decontamination centres and the necessary stock of
antidote medicines and specific de-corporation agents for typical
radioisotopes.
Public awareness
To educate the people about the beneficial aspects of nuclear
radiation and to remove their misgivings about it, the authorities of
nuclear fuel cycle facilities in general, and that of nuclear power
stations in particular, are actively involved in carrying out regular
public awareness programmes for people living in the vicinity of
these facilities
.
 
Mitigation and preparation
Goals are:
• To reduce radiation-induced health effects by preventing.
• To limit the occurrence of stochastic effects in the population.
Domain of Action
The response actions within the site boundary of the nuclear
facility -are the responsibility of the management of the nuclear
facility whereas the implementation of the emergency response
plans in the public domain (beyond the site boundary) is the
responsibility of the concerned district authority.
In the event of an off-site emergency having the potential for
trans-boundary effects, necessary action is taken by DAE in
accordance with the country's international obligations.
 
Specialized Response Teams
Four battalions of National Disaster Response Force (NDRF) are
being specially trained by NDMA with assistance from DAE/DRDO
to provide specialized response during a nuclear/radiological
emergency/disaster.
Role of Civil Defense
Selected civil defence personnel will be trained extensively in the
subjects of radiation, radioactivity, radiation--protection, use of
monitoring instruments, shielding, decontamination, waste disposal,
etc.
Role of Armed Forces
The armed forces will also gear up their nuclear disaster preparedness
so that they can be inducted in the event of nuclear disasters.
 
Periodic Exercises and Mock Drills
It focuses on roles and responsibilities resource identification, use of
equipment, understanding the effects of radiation on human beings,
animals and the environment.
Emergency Response Centres (ERCs)
ERCs will be set up at all levels (i.e., state .capitals and major cities)
with the necessary manpower, instruments and equipment. Depending
upon the location and assigned functions, these ERCs will also be
maintained in a ready state to quickly respond to any nuclear/
radiological emergency.
Radiation Detection, Monitoring Instruments and Protective Gear
The first need is the availability of instruments for detecting and
monitoring the radiation. An inventory of radiation monitoring
instruments and protective gear will be built up by all the SDMAs and
DDMAs in consultation with DAE.
 
Real Time Monitoring Systems
A network of simple environmental monitors, the
Indian Environmental Radiation Monitoring Network
(IERMON) has been established by BARC. These monitors
work on a 24 x 7 basis.
Source
Wikipedia
Savindra Singh-Environmental Geography
NDMA website
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The growth of nuclear technology in India poses risks of nuclear and radiological emergencies. Nuclear emergencies can arise from various factors, leading to potential hazards for workers and the public. The government has established institutional mechanisms to address such emergencies, with the Department of Atomic Energy and Crisis Management Group playing key roles since 1987.


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  1. 4thSemester Paper-4016 ENVIRONMENTAL GEOGRAPHY AND DISASTER MANAGEMENT

  2. NUCLEAR EXPLOSIONS The phenomenal growth in the applications of radioisotopes and radiation technology has helped in improving the quality of life of the human race. India is also one amongst the seven declared nuclear weapon states, which uses nuclear technology for strategic purposes. The growth in the application of nuclear science and technology in the fields of power generation, medicine, industry, agriculture, research and defence has led to an increase in the risk of occurrence of Nuclear and Radiological emergencies. India is also one amongst the seven declared nuclear weapon states, which uses nuclear technology for strategic purposes. Nuclear plants, in general, adopt a defense- in-depth approach and multiple physical barriers to ensure that radioactivity is contained at all times. Emergency preparedness and response plans are in place to cope with nuclear or radiological emergency scenarios ranging from minor incidents like a small spillage of radioactive material to a major nuclear accident releasing large-scale radioactivity (like Chernobyl) in the public domain.

  3. However, nuclear emergencies can still arise due to factors beyond the control of the operating agencies; e.g., human error, system failure, sabotage, earthquake, cyclone, flood, etc Nuclear or radiological emergency disaster scenario Any radiation incident resulting in or having a potential to result in exposure to and/or contamination of the workers or the public in excess of the respective permissible limits can be termed is a nuclear/ radiological emergency. These emergencies can be broadly classified in the following manner: 1. An accident-taking place in any nuclear facility of the nuclear fuel cycle. 2. A 'criticality' accident in a nuclear fuel cycle facility where an uncontrolled nuclear chain reaction takes-place.

  4. An accident during the transportation of radioactive material. 4. The Male-volent use of radioactive material as Radiological Dispersal Device (RDD) by terrorists. 5. A large-scale nuclear disaster resulting from a nuclear weapon attack (as had happened at Hiroshima and Nagasaki in Japan), The International Atomic Energy Agency (IAEA) classifies the above emergency scenarios under- two broad categories nuclear and radiological: A nuclear emergency refers to an emergency situation in which there is, or is presumed to be, a hazard due to the release of energy along with radiation from a nuclear chain reaction. All other emergency situations, which have the potential hazard of radiation exposure due to decay of radioisotopes are classified as radiological emergencies.

  5. Institutional mechanism for it The Government of India has identified Department of Atomic Energy (DAE) as the nodal agency for providing the necessary technical inputs to the national or local. The Ministry of Home Affairs (MHA) is the nodal ministry in such emergencies. For this purpose, a Crisis Management Group (CMG) has been functioning since 1987 at DAE. Crisis Management Group (CMG) It is immediately activated and it coordinates with the local authority in the -affected area. All the concerning authorities at the centre (NCMC/ NEC/NDMA)- to ensure that the necessary technical- inputs are available to respond to the nuclear/radiological' emergency.

  6. Medical preparedness for nuclear emergencies In each constituent unit of DAE, a few doctors have been dedicated and given the necessary training in the medical management of radiation emergencies. All nuclear power plants and the Bhabha Atomic Research Centre (BARC) are equipped with radiation monitoring instruments, have personnel decontamination centres and the necessary stock of antidote medicines and specific de-corporation agents for typical radioisotopes. Public awareness To educate the people about the beneficial aspects of nuclear radiation and to remove their misgivings about it, the authorities of nuclear fuel cycle facilities in general, and that of nuclear power stations in particular, are actively involved in carrying out regular public awareness programmes for people living in the vicinity of these facilities.

  7. Mitigation and preparation Goals are: To reduce radiation-induced health effects by preventing. To limit the occurrence of stochastic effects in the population. Domain of Action The response actions within the site boundary of the nuclear facility -are the responsibility of the management of the nuclear facility whereas the implementation of the emergency response plans in the public domain (beyond the site boundary) is the responsibility of the concerned district authority. In the event of an off-site emergency having the potential for trans-boundary effects, necessary action is taken by DAE in accordance with the country's international obligations.

  8. Specialized Response Teams Four battalions of National Disaster Response Force (NDRF) are being specially trained by NDMA with assistance from DAE/DRDO to provide specialized response during a nuclear/radiological emergency/disaster. Role of Civil Defense Selected civil defence personnel will be trained extensively in the subjects of radiation, radioactivity, radiation--protection, use of monitoring instruments, shielding, decontamination, waste disposal, etc. Role of Armed Forces The armed forces will also gear up their nuclear disaster preparedness so that they can be inducted in the event of nuclear disasters.

  9. Periodic Exercises and Mock Drills It focuses on roles and responsibilities resource identification, use of equipment, understanding the effects of radiation on human beings, animals and the environment. Emergency Response Centres (ERCs) ERCs will be set up at all levels (i.e., state .capitals and major cities) with the necessary manpower, instruments and equipment. Depending upon the location and assigned functions, these ERCs will also be maintained in a ready state to quickly respond to any nuclear/ radiological emergency. Radiation Detection, Monitoring Instruments and Protective Gear The first need is the availability of instruments for detecting and monitoring the radiation. An inventory of radiation monitoring instruments and protective gear will be built up by all the SDMAs and DDMAs in consultation with DAE.

  10. Real Time Monitoring Systems A network of simple environmental monitors, the Indian Environmental Radiation Monitoring Network (IERMON) has been established by BARC. These monitors work on a 24 x 7 basis. Source Wikipedia Savindra Singh-Environmental Geography NDMA website

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