In [1]:

    

import numpy as np
from importlib import reload
import sowfa_precursor
sowfa_precursor = reload(sowfa_precursor)
%matplotlib inline


    

In [2]:

    

per48_001_5 =  sowfa_precursor.Sim(
    dir='/projects/windsim/mlawson/wake_steering/stableABLRuns/48HrPer_0.001m_5m',
    log='log.2.ABLSolver',
    time_dir='20000',
    avg_time=29000,
    avg_width=2000,
    z_level=90.0)
per48_001_5.input['heights'] = np.array([0,1/2,1,3/2,2,3,4,5])*per48_001_5.input['windHeight']


    

    




Read "zCell" from:
	/projects/windsim/mlawson/wake_steering/stableABLRuns/48HrPer_0.001m_5m/postProcessing/averaging/20000/hLevelsCell
Read SOWFA "setUp" file:
	/projects/windsim/mlawson/wake_steering/stableABLRuns/48HrPer_0.001m_5m/setUp
Set uStarMean = 0.342606221677 from SOWFA ".log" file:
	/projects/windsim/mlawson/wake_steering/stableABLRuns/48HrPer_0.001m_5m/log.2.ABLSolver

In [3]:

    

per48_001_5.theta_w_avg_cell()


    

    




Time from  28000.0 to  29999.4957805






    

In [4]:

    

per48_001_5.Umean_avg_nonnormalized()


    

In [5]:

    

per48_001_5.Tmean_avg_nonnormalized()


    

In [6]:

    

per48_001_5.variances_avg_cell()