#++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
#
# HiLiftPW-3 Iterative Convergence DATA SUBMITTAL FORM Case 2d (Version 1), March 2017
#
# CASE 2d is an optional nacelle-ON run of the JSM configuration, using grid adaptation
# The finest (adapted) result should be reported
# Six ALPHAs are required: 4.36, 10.47, 14.54, 18.58, 20.59, and 21.57.
# This case can be run fully turbulent or with forced transition or with a transition prediction method.
#
# NOMENCLATURE:
# ITER: Iteration or time step number (ITER1=first recorded time step, ITERn=last time step).
# ITERn-ITER1 should be long enough to show any range in variation of final forces and moments.
# If no variation exists (i.e., steady-state reached), provide at least the final 25% of the range of iterations used.
# CL: Coefficient of lift (total)
# CD: Coefficient of drag (total)
# CM: Coefficient of pitching moment about moment reference center (MRC) (total)
# RESIDM-n: Residual of selected mean-flow equation (n=equation number)
# RESIDT-n: Residual of selected turbulence equation (n=equation number)
#
# ALPHA: Angle of attack, deg.
# MAC: Mean aerodynamic chord = 529.2 mm
#
# XXX: Participant ID (To be assigned by HiLiftPW workshop committee)
#
# FLOW CONDITIONS:
# Mach Number: 0.172
# Reynolds Number: 1.93 million (based on MAC)
# Freestream Temp: 551.79 R (=33.40 C = 92.12 F)
# Freestream Static Pressure: 747.70 mmHg (= 14.458 psi)
#
# NOTES: 1. All numerical data fields can be free-formatted
# 2. Please use at least 5 decimal places in the numerical values for CL CD CM
# 3. Please use scientific notation (e.g. 2.51e-6) in the numerical values for RESIDM-n and RESIDT-n
# 4. Residuals are optional; as many residuals can be provided as desired (up to 5 for mean flow, up to 7 for turbulence)
# 5. If optional data is NOT provided, please fill data fields with a numerical value of "-999"
# 6. Indicate (using each DATASETAUXDATA) whether local-time-stepping or time-accurate method was used
#
#++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TITLE = "XXX"
# <--------------------------------------------------------- OPTIONAL -------------------------------------------------------------->
VARIABLES = "ITER" "CL" "CD" "CM" "RESIDM-1" "RESIDM-2" "RESIDM-3" "RESIDM-4" "RESIDM-5" "RESIDT-1" "RESIDT-2" "RESIDT-3" "RESIDT-4" "RESIDT-5" "RESIDT-6" "RESIDT-7"
DATASETAUXDATA TIMESTEPPING_METHOD_A4.36_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=4.36 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999
DATASETAUXDATA TIMESTEPPING_METHOD_A10.47_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=10.47 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999
DATASETAUXDATA TIMESTEPPING_METHOD_A14.54_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=14.54 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999
DATASETAUXDATA TIMESTEPPING_METHOD_A18.58_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=18.58 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999
DATASETAUXDATA TIMESTEPPING_METHOD_A20.59_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=20.59 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999
DATASETAUXDATA TIMESTEPPING_METHOD_A21.57_WITH = "local-time-stepping -or- time-accurate"
ZONE T="XXX case2d alpha=21.57 adapted with nacelle"
1 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999 -999