In preparation for the proposed conversion of the National Institute of Standards and Technology (NIST) research reactor (NBSR) from high-enriched uranium (HEU) to low-enriched uranium (LEU) fuel, certain point kinetics parameters must be calculated. We report here values of the prompt neutron lifetime that have been calculated using three independent methods. All three sets of calculations demonstrate that the prompt neutron lifetime is shorter for the LEU fuel when compared to the HEU fuel and longer for the equilibrium end-of-cycle (EOC) condition when compared to the equilibrium startup (SU) condition for both the HEU and LEU fuels
The NIST Center for Neutron Research (NCNR) is a reactor-laboratory complex providing the National I...
The WWR-SM research reactor in Uzbekistan has operated at 10 MW since 1979, using Russian-supplied I...
A neutronic feasibility study for converting the High Flux Beam Reactor at Brookhaven National Labor...
The delayed neutron fraction and prompt neutron lifetime have been calculated at different times in ...
A plan is being developed for the conversion of the NIST research reactor (NBSR) from high-enriched ...
A study has been carried out to understand how the NIST research reactor (NBSR) might be converted f...
In this study kinetic parameters, effective delayed neutron fraction and prompt neutron generatio...
AbstractIn this work, kinetic parameters of Tehran research reactor (TRR) mixed cores have been calc...
The analysis of research reactor transients depends on the effective delayed neutron fraction (k{sub...
The results of neutronics calculations are presented for the JMTR equilibrium core with LEU silicide...
The prompt neutron lifetime is an important input parameter to the solution of the point reactor kin...
Kinetic parameters, isothermal reactivity feedback coefficients and three transients for the IR-8 re...
Large, plutonium-fueled, fast reactors will have a different kinetic behavior than fast reactors fue...
An initial safety study for potential LEU conversion of the Budapest Research Reactor was completed....
Equilibrium fuel cycle comparisons for the IR-8 research reactor were made for HEU(90%), HEU(36%), a...
The NIST Center for Neutron Research (NCNR) is a reactor-laboratory complex providing the National I...
The WWR-SM research reactor in Uzbekistan has operated at 10 MW since 1979, using Russian-supplied I...
A neutronic feasibility study for converting the High Flux Beam Reactor at Brookhaven National Labor...
The delayed neutron fraction and prompt neutron lifetime have been calculated at different times in ...
A plan is being developed for the conversion of the NIST research reactor (NBSR) from high-enriched ...
A study has been carried out to understand how the NIST research reactor (NBSR) might be converted f...
In this study kinetic parameters, effective delayed neutron fraction and prompt neutron generatio...
AbstractIn this work, kinetic parameters of Tehran research reactor (TRR) mixed cores have been calc...
The analysis of research reactor transients depends on the effective delayed neutron fraction (k{sub...
The results of neutronics calculations are presented for the JMTR equilibrium core with LEU silicide...
The prompt neutron lifetime is an important input parameter to the solution of the point reactor kin...
Kinetic parameters, isothermal reactivity feedback coefficients and three transients for the IR-8 re...
Large, plutonium-fueled, fast reactors will have a different kinetic behavior than fast reactors fue...
An initial safety study for potential LEU conversion of the Budapest Research Reactor was completed....
Equilibrium fuel cycle comparisons for the IR-8 research reactor were made for HEU(90%), HEU(36%), a...
The NIST Center for Neutron Research (NCNR) is a reactor-laboratory complex providing the National I...
The WWR-SM research reactor in Uzbekistan has operated at 10 MW since 1979, using Russian-supplied I...
A neutronic feasibility study for converting the High Flux Beam Reactor at Brookhaven National Labor...