This paper presents a preliminary design of a Small Modular Pressurized Water Reactor (SMPWR) with new burnable absorber (BA) materials to achieve the goal of an advanced core design of boron-free SMPWR. The target values of reactivity swing, axial offset (AO), 3D pin peaking factor (Fq), and the shutdown margin are set for SMR. The R-BA and HfB2 are assessed as new materials for the burnable absorber and control rods to satisfy those goals. A sensitivity study for optimal fuel assemblies and loading pattern has been performed. Furthermore, the excess reactivity control during the operation and reactivity balance calculation at the beginning of cycle (BOC) are analyzed to assess the performance of the SMPWR
The design challenges of the fertile-free based fuel (FFF) can be addressed by careful and elaborate...
Research and development on metallurglcal aspects of pressurized-water systems is summarized. A surv...
<p>This paper presents the conceptual designs of a new burnable absorber (BA) for the pressurized wa...
This paper presents a preliminary design of a Small Modular Pressurized Water Reactor (SMPWR) aimed ...
A complete solution for a soluble-boron-free (SBF) small modular reactor (SMR) is pursued with a new...
This paper proposes a new control rod material for a boron-free small modular pressurized water reac...
A soluble boron-free small modular pressurized water reactor (SMPWR) uses burnable absorbers (BA) in...
This paper presents a new high performance burnable absorber (BA) design for advanced Pressurized Wa...
Elimination of soluble boron from reactor design eliminates boron-induced reactivity accidents and l...
Currently, the main reactivity control methods for small modular reactors (SMR) use control rods as ...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
AbstractReducing critical boron concentration in a commercial pressurized water reactor core offers ...
This paper suggests an optimal model of boron free SMPWR for long-cycle operation without refueling....
The design challenges of the fertile-free based fuel (FFF) can be addressed by careful and elaborate...
Research and development on metallurglcal aspects of pressurized-water systems is summarized. A surv...
<p>This paper presents the conceptual designs of a new burnable absorber (BA) for the pressurized wa...
This paper presents a preliminary design of a Small Modular Pressurized Water Reactor (SMPWR) aimed ...
A complete solution for a soluble-boron-free (SBF) small modular reactor (SMR) is pursued with a new...
This paper proposes a new control rod material for a boron-free small modular pressurized water reac...
A soluble boron-free small modular pressurized water reactor (SMPWR) uses burnable absorbers (BA) in...
This paper presents a new high performance burnable absorber (BA) design for advanced Pressurized Wa...
Elimination of soluble boron from reactor design eliminates boron-induced reactivity accidents and l...
Currently, the main reactivity control methods for small modular reactors (SMR) use control rods as ...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
In an effort to de-carbonise commercial freight shipping, there is growing interest in the possibili...
AbstractReducing critical boron concentration in a commercial pressurized water reactor core offers ...
This paper suggests an optimal model of boron free SMPWR for long-cycle operation without refueling....
The design challenges of the fertile-free based fuel (FFF) can be addressed by careful and elaborate...
Research and development on metallurglcal aspects of pressurized-water systems is summarized. A surv...
<p>This paper presents the conceptual designs of a new burnable absorber (BA) for the pressurized wa...
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