Add to ORKGThe radioactive waste stored in underground storage tanks at Hanford site is routinely being sampled for waste characterization purposes. The push- and rotary-mode core sampling is one of the sampling methods employed. The waste includes mixtures of sodium nitrate and sodium nitrite with organic compounds that can produce violent exothermic reactions if heated above 160 C during core sampling. A self-propagating waste reaction would produce very high temperatures that eventually result in failure of the tank and radioactive material releases to environment. A two-dimensional thermal model based on a lumped finite volume analysis method is developed. The enthalpy of each node is calculated from the first law of thermodynamics. A flash temper...
We consider the disposal of spent nuclear fuel and high-level radioactive waste in horizontal holes ...
The primary purpose of this report is to identify and resolve some of the flammable gas and thermal ...
The primary objective of the present work is to perform a heat balance study for type-I waste tank t...
Rotary sampling using the Rotary Mode Core Sampling System (RMCSS) is constrained by what is referre...
It has been observed that a high-level radioactive waste tank generates quantities of hydrogen, ammo...
The engineering viability of disposal of aluminum-clad, aluminum-based spent nuclear fuel (Al-SNF) i...
This report summarizes progress in evaluating thermal and radiolytic rate parameters for flammable g...
This report summarizes progress made in evaluating mechanisms by which flammable gases are generated...
This study was conducted as outlined in NHC Letter of Instruction 9751330 dated February 247 1997 an...
We examine the temperature evolution near horizontal drillholes designed for the disposal of spent n...
Two- and three-dimensional heat transfer analyses were conducted to determine temperatures in the vi...
A three-dimensional thermal analysis has been performed using finite difference techniques to determ...
Continual concern has been expressed over potentially hazardous exothermic reactions that might occu...
Sampling with a rotary drill could potentially cause a fire in some Hanford tanks. If the rotary dri...
The Small Column Ion Exchange (SCIX) project is designed to accelerate closure of High Level Waste (...
We consider the disposal of spent nuclear fuel and high-level radioactive waste in horizontal holes ...
The primary purpose of this report is to identify and resolve some of the flammable gas and thermal ...
The primary objective of the present work is to perform a heat balance study for type-I waste tank t...
Rotary sampling using the Rotary Mode Core Sampling System (RMCSS) is constrained by what is referre...
It has been observed that a high-level radioactive waste tank generates quantities of hydrogen, ammo...
The engineering viability of disposal of aluminum-clad, aluminum-based spent nuclear fuel (Al-SNF) i...
This report summarizes progress in evaluating thermal and radiolytic rate parameters for flammable g...
This report summarizes progress made in evaluating mechanisms by which flammable gases are generated...
This study was conducted as outlined in NHC Letter of Instruction 9751330 dated February 247 1997 an...
We examine the temperature evolution near horizontal drillholes designed for the disposal of spent n...
Two- and three-dimensional heat transfer analyses were conducted to determine temperatures in the vi...
A three-dimensional thermal analysis has been performed using finite difference techniques to determ...
Continual concern has been expressed over potentially hazardous exothermic reactions that might occu...
Sampling with a rotary drill could potentially cause a fire in some Hanford tanks. If the rotary dri...
The Small Column Ion Exchange (SCIX) project is designed to accelerate closure of High Level Waste (...
We consider the disposal of spent nuclear fuel and high-level radioactive waste in horizontal holes ...
The primary purpose of this report is to identify and resolve some of the flammable gas and thermal ...
The primary objective of the present work is to perform a heat balance study for type-I waste tank t...