Add to ORKGDirect numerical simulation (DNS) is conducted to study the transient flow in a pipe following a near-step increase of flow rate from an initial turbulent flow. The results are compared with those of the transient flow in a channel reported in He and Seddighi (2013). It is shown that the flow again exhibits a laminar–turbulent transition, similar to that in a channel. The behaviours of the flow in a pipe and a channel are the same in the near-wall region, but there are significant differences in the centre of the flow. The correlation between the critical Reynolds number and free stream turbulence previously established for a channel flow has been shown to be applicable to the pipe flow. The responses of turbulent viscosity, vorticity Reyno...
Fluid transportation through pipes always generates energy dissipation due to frictional drag at the...
AbstractThe performance of a number of low-Reynolds number turbulence models is evaluated against di...
Direct numerical simulations (DNSs) of fully developed turbulent pipe flows with a 30. R streamwise ...
Direct numerical simulation (DNS) is conducted to study the transient flow in a pipe following a nea...
AbstractDirect numerical simulation (DNS) is conducted to study the transient flow in a pipe followi...
AbstractDirect numerical simulation (DNS) is conducted to study the transient flow in a pipe followi...
In this paper, transient flow in a pipe at Reynolds numbers (based on bulk velocity and diameter) ra...
This investigation characterises the time response and the transient turbulence dynamics undergone b...
Direct numerical simulations (DNS) have been performed for turbulent pipe flows using a high-order s...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
Two non-equilibrium flows, namely, a transient turbulent pipe flow following a sudden change of flow...
Since the seminal studies by Osborne Reynolds in the nineteenth century, pipe flow has served as a p...
AbstractThe paper reports a series of DNS, LES and experimental studies of unsteady flows following ...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
Fluid transportation through pipes always generates energy dissipation due to frictional drag at the...
AbstractThe performance of a number of low-Reynolds number turbulence models is evaluated against di...
Direct numerical simulations (DNSs) of fully developed turbulent pipe flows with a 30. R streamwise ...
Direct numerical simulation (DNS) is conducted to study the transient flow in a pipe following a nea...
AbstractDirect numerical simulation (DNS) is conducted to study the transient flow in a pipe followi...
AbstractDirect numerical simulation (DNS) is conducted to study the transient flow in a pipe followi...
In this paper, transient flow in a pipe at Reynolds numbers (based on bulk velocity and diameter) ra...
This investigation characterises the time response and the transient turbulence dynamics undergone b...
Direct numerical simulations (DNS) have been performed for turbulent pipe flows using a high-order s...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
Two non-equilibrium flows, namely, a transient turbulent pipe flow following a sudden change of flow...
Since the seminal studies by Osborne Reynolds in the nineteenth century, pipe flow has served as a p...
AbstractThe paper reports a series of DNS, LES and experimental studies of unsteady flows following ...
The performance of a number of low-Reynolds number turbulence models is evaluated against direct num...
Fluid transportation through pipes always generates energy dissipation due to frictional drag at the...
AbstractThe performance of a number of low-Reynolds number turbulence models is evaluated against di...
Direct numerical simulations (DNSs) of fully developed turbulent pipe flows with a 30. R streamwise ...