Abstract
Radiological consequence analysis has been carried out for upgradation of PARR-I from 9 to 10 MW. A hypothetical loss of coolant accident resulting in core meltdown and release of fission products to the atmosphere has been analyzed. Whole body and thyroid doses have been calculated as a function of time and distance from the containment building. Based on these dose estimates, boundaries of exclusion and low population zones are assessed. (author).
Khan, L A;
Raza, S S
[1]
- Pakistan Inst. of Nuclear Science and Technology, Islamabad (Pakistan). Nuclear Engineering Div.
Citation Formats
Khan, L A, and Raza, S S.
Radiological consequence analysis for upgradation of Pakistan Research Reactor-1 from 9 to 10 MW.
Pakistan: N. p.,
1993.
Web.
Khan, L A, & Raza, S S.
Radiological consequence analysis for upgradation of Pakistan Research Reactor-1 from 9 to 10 MW.
Pakistan.
Khan, L A, and Raza, S S.
1993.
"Radiological consequence analysis for upgradation of Pakistan Research Reactor-1 from 9 to 10 MW."
Pakistan.
@misc{etde_10113995,
title = {Radiological consequence analysis for upgradation of Pakistan Research Reactor-1 from 9 to 10 MW}
author = {Khan, L A, and Raza, S S}
abstractNote = {Radiological consequence analysis has been carried out for upgradation of PARR-I from 9 to 10 MW. A hypothetical loss of coolant accident resulting in core meltdown and release of fission products to the atmosphere has been analyzed. Whole body and thyroid doses have been calculated as a function of time and distance from the containment building. Based on these dose estimates, boundaries of exclusion and low population zones are assessed. (author).}
place = {Pakistan}
year = {1993}
month = {Dec}
}
title = {Radiological consequence analysis for upgradation of Pakistan Research Reactor-1 from 9 to 10 MW}
author = {Khan, L A, and Raza, S S}
abstractNote = {Radiological consequence analysis has been carried out for upgradation of PARR-I from 9 to 10 MW. A hypothetical loss of coolant accident resulting in core meltdown and release of fission products to the atmosphere has been analyzed. Whole body and thyroid doses have been calculated as a function of time and distance from the containment building. Based on these dose estimates, boundaries of exclusion and low population zones are assessed. (author).}
place = {Pakistan}
year = {1993}
month = {Dec}
}