The ability to quantify leakage flow and windage heating for labyrinth seals with honeycomb lands is critical in understanding gas turbine engine system performance and predicting its component life. Variety of labyrinth seal configurations (number of teeth, stepped or straight, honeycomb cell size) are in use in gas turbines, and for each configuration, there are many geometric factors that can impact a seal's leakage and windage characteristics. This paper describes the development of a numerical methodology aimed at studying the effect of honeycomb lands on leakage and windage heating. Specifically, a three-dimensional computational fluid dynamics (CFD) model is developed utilizing commercial finite volume-based software incorporating th...
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A new type of stepped seal with a ribbed casing is proposed to efficiently reduce the leakage at the...
The honeycomb seal is a vital component to reduce the leakage flow and improve the system stability ...
The ability to quantify leakage flow and windage heating for labyrinth seals with honeycomb lands is...
The present work focuses on non-rotating honeycomb labyrinth seals, devices utilized to improve the ...
The labyrinth seals are one of the most important components of a gas turbine engine as a sealing el...
The design of the newest aircraft propulsion systems is focused on environmental impact reduction. E...
CFD Performance evaluation of gas turbine labyrinth seals using computational fluid dynamicss Proble...
The labyrinth seals are one of the most important components of a gas turbine engine as a sealing el...
Recent rapid improvements in the efficiency and power output of gas turbines require enhanced design...
The development of new Additive Manufacturing techniques helps to overtake design constrains charac...
Various studies have been carried out related to the labyrinth seals and reported in the open litera...
The design of modern aircrafts propulsion systems is strongly influenced by the important objective ...
Growing performance requirements for gas turbines have led to a continuous increase in gas temperatu...
AbstractAmong the various type of seals used in gas turbine secondary air system to guarantee suffic...
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A new type of stepped seal with a ribbed casing is proposed to efficiently reduce the leakage at the...
The honeycomb seal is a vital component to reduce the leakage flow and improve the system stability ...
The ability to quantify leakage flow and windage heating for labyrinth seals with honeycomb lands is...
The present work focuses on non-rotating honeycomb labyrinth seals, devices utilized to improve the ...
The labyrinth seals are one of the most important components of a gas turbine engine as a sealing el...
The design of the newest aircraft propulsion systems is focused on environmental impact reduction. E...
CFD Performance evaluation of gas turbine labyrinth seals using computational fluid dynamicss Proble...
The labyrinth seals are one of the most important components of a gas turbine engine as a sealing el...
Recent rapid improvements in the efficiency and power output of gas turbines require enhanced design...
The development of new Additive Manufacturing techniques helps to overtake design constrains charac...
Various studies have been carried out related to the labyrinth seals and reported in the open litera...
The design of modern aircrafts propulsion systems is strongly influenced by the important objective ...
Growing performance requirements for gas turbines have led to a continuous increase in gas temperatu...
AbstractAmong the various type of seals used in gas turbine secondary air system to guarantee suffic...
This is a detailed study into the internal aerodynamics of labyrinth seals, with pmic| reference t...
A new type of stepped seal with a ribbed casing is proposed to efficiently reduce the leakage at the...
The honeycomb seal is a vital component to reduce the leakage flow and improve the system stability ...