A Computational-experimental Study to Simulate Mixing and Thermal Stratification in SFRs

“…The facility was designed as a scaleddown model based on the Advanced Burner Test Reactor (ABTR) reference design. A scaling analysis was conducted to ensure the design maintained both key relative dimensions and similar kinematic and dynamic processes to those that would occur in a full-scale reactor plenum [1]. The test section representing the scaled upper plenum is 1/20 th the size of the ABTR outlet plenum.…”

“…The Gallium Thermal-hydraulic Experiment (GaTE) facility was designed and built at Kansas State University (KSU) to investigate thermal stratification phenomena in liquid-metal-cooled reactors [1]. The facility is comprised primarily of a test vessel representing a scaled upper plenum in a loop with heat exchangers through which liquid gallium is circulated.…”

Benchmark Specifications for Select Experiments Conducted at the Kansas State University Gallium Thermal-hydraulic Experiment Facility

“…The facility was designed as a scaleddown model based on the Advanced Burner Test Reactor (ABTR) reference design. A scaling analysis was conducted to ensure the design maintained both key relative dimensions and similar kinematic and dynamic processes to those that would occur in a full-scale reactor plenum [1]. The test section representing the scaled upper plenum is 1/20 th the size of the ABTR outlet plenum.…”

“…The Gallium Thermal-hydraulic Experiment (GaTE) facility was designed and built at Kansas State University (KSU) to investigate thermal stratification phenomena in liquid-metal-cooled reactors [1]. The facility is comprised primarily of a test vessel representing a scaled upper plenum in a loop with heat exchangers through which liquid gallium is circulated.…”

Benchmark Specifications for Select Experiments Conducted at the Kansas State University Gallium Thermal-hydraulic Experiment Facility