
This case study investigates the balancing of forced flow through a perforated flow distribution manifold situated between the thermal insulation and the bottom of a cylindrical test cavity that forms part of a highly specialized experimental facility. The purpose of the insulation and manifold is to adequately insulate the very high temperatures within the test section while still allowing forced flow of gas to enter at the bottom of the test cavity.
Share This:
Share This:
More Case Studies
You might also be interested in these CASE STUDIES
MAINTENANCE EFFECTIVENESS COMPARISON FOR A HALF STATION SHUTDOWN OUTAGE
This case study demonstrates how Flownex® can be used in evaluating the effectiveness of the maintenance work conducted during…
HTGC REACTOR STARTUP
The HTGR is one of the most promising reactor concepts of the Nuclear Renaissance, offering advantages such as improved safety and…
A CLOSED THREE-SHAFT RECUPERATIVE BRAYTON CYCLE
This case study demonstrates the investigation into the operating characteristics of a Reactor Cavity Cooling System (RCCS) during…
REACTOR CAVITY COOLING
This case study demonstrates the investigation into the operating characteristics of a Reactor Cavity Cooling System (RCCS) during…
COMBINED CYCLE POWER PLANT
This case study demonstrates the modeling of a Combined Cycle (CC) power plant of a High Temperature Gas-Cooled Reactor (HTGR).
HTGC POWER CYCLE
This case study demonstrates the steady-state simulation of a High Temperature Gas-Cooled Reactor (HTGC) nuclear power plant (NPP).