Leila_Mays_033115_SH_1
Key Word: 6 CMEs in August 2010. 10aug_7_v13. ENLIL v2.8e. SEPMOD. EPREM coupling. DREAM2.
Model Type: Heliosphere
Model & Version: ENLIL 2.8e
Boundary Condition Type: Single Daily Update Map (du)
Inner Boundary Condition: from_WSA_V2.2_model
Run Objective: cone_model
Observatory: GONGB (Standard QuickReduce Magnetogram Synoptic Map - mrbqs)
Carrington Rotation Start: 2099 Carrington Longitude Start: 142°
Start computation date (rundate_cal): 2010-07-30T00:00:00
Coronal observations date (obsdate_cal): 2010-08-05T00
Time unit = 3600. seconds Relaxation start time relative to rundate (tstart): -876. time units
Simulation stop time (tstop): 600 time units Full 3D output cadence (tstep): 1 time units
Outer Boundary: 5.3 AU (Jupiter inclusive; radial span: 5.2 AU, region 5 AU)
Simulation Grid: 832x30x90 (0.1 to 5.3 AU radius; ±60° latitude, 30° to 150° co-latitude; 0° to 360° longitude)
Geometry: Spherical and Uniform Coordinate System: HEEQ+180°
Resolution: low Number of Simulation blocks (nblk): 7
Ambient wind conditions setting: a3b1 ratio of specific heats (gamma): 1.6666667 runpar=g53q5
(vfast=700., vslow=200., vrfast=0., vrslow=75., bfast=350., bscl=4., dfast=125., tfast=1.5, xalpha=0.05, nbrad=1)
Rotation of the inner boundary: synodic
CME Input File: cmes-2010-aug-v13.dat Number of CMEs: 6
Hydrodynamic cloud setting: sa1
(dcld=4,4,8,4,4,4, tcld=1., xcld=1., ncld=2)
Cavity setting: radcav=0., dcav=1., tcav=4.
- View the CME input file.
- View the file listing of inner boundary filenames.
- View 3D Data
- View control file with input parameters for the run.
- Download output .dat files.
- View quick look graphics for the run | list of quicklook graphics links
Note: Quick look graphics has been designed by the model developer to enable quick evaluation of the results of the run. To find more information regarding this option please contact the CCMC staff.
ENLIL_at_Earth
ENLIL_at_Jupiter
ENLIL_at_Mars
ENLIL_at_Mercury
ENLIL_at_Messenger
ENLIL_at_Spitzer
ENLIL_at_Stereo_A
ENLIL_at_Stereo_B
ENLIL_at_Venus