TY - JOUR
T1 - Fully Consistent SIMPLE-Like Algorithms on Collocated Grids
AU - Kolmogorov, Dmitry
AU - Shen, Wen Zhong
AU - Sørensen, Niels N.
AU - Sørensen, Jens Nørkær
PY - 2015
Y1 - 2015
N2 - To increase the convergence rate of SIMPLE-like algorithms on collocated grids, a compatibility
condition between mass flux interpolation methods and SIMPLE-like algorithms is presented.
Results of unsteady flow computations show that the SIMPLEC algorithm, when obeying the
compatibility condition, may obtain up to 35% higher convergence rate as compared to the
standard SIMPLEC algorithm. Two new interpolation methods, fully compatible with the
SIMPLEC algorithm, are presented and compared with some existing interpolation methods,
including the standard methods of Choi [9] and Shen et al. [8]. Numerical results show that
the time-step dependence of the standard methods may double the total discretization error
at steady state. It is furthermore shown that the new methods are independent of time step
and relaxation parameter at convergence. One of the new methods is shown to give a higher
accuracy than the standard methods.
AB - To increase the convergence rate of SIMPLE-like algorithms on collocated grids, a compatibility
condition between mass flux interpolation methods and SIMPLE-like algorithms is presented.
Results of unsteady flow computations show that the SIMPLEC algorithm, when obeying the
compatibility condition, may obtain up to 35% higher convergence rate as compared to the
standard SIMPLEC algorithm. Two new interpolation methods, fully compatible with the
SIMPLEC algorithm, are presented and compared with some existing interpolation methods,
including the standard methods of Choi [9] and Shen et al. [8]. Numerical results show that
the time-step dependence of the standard methods may double the total discretization error
at steady state. It is furthermore shown that the new methods are independent of time step
and relaxation parameter at convergence. One of the new methods is shown to give a higher
accuracy than the standard methods.
U2 - 10.1080/10407790.2014.949583
DO - 10.1080/10407790.2014.949583
M3 - Journal article
SN - 1040-7790
VL - 67
SP - 101
EP - 123
JO - Numerical Heat Transfer Part B: Fundamentals
JF - Numerical Heat Transfer Part B: Fundamentals
ER -