def calc_lcl(row, psfc): """ find the lcl (in m) for a row in the dataframe """ Tdew = tf.tmr(row['qv'], psfc) LCL = tf.LCL(Tdew, row['theta'], psfc) #kPa # # rough approximation: 10 kPa = 1 km # delp = psfc - LCL lcl_h = delp * 100. return lcl_h
import pandas as pd Temp=280. #K press=90. #kPa # # find the saturation mixing ratio and potential temp from the temperature and pressure # print(tf.qs_tp(Temp,press)) print(tf.find_theta(Temp,press)) # # find the dew point temperature and the lifting condensation level # psurf=100. #kPa Tsurf=290. qvap=7.e-3 #kg/kg Tdew = tf.tmr(qvap,psurf) print('the surface dew point temp is: ',Tdew) LCL = tf.LCL(Tdew,Tsurf,psurf) print('the LCL is {:5.2f} kPa'.format(LCL)) # # find thetal # thetal = tf.alt_thetal(psurf,Tsurf,qvap) # # invert thetal for temperature, vapor, liquid -- uos means "unsaturated or saturated" # print(tf.t_uos_thetal(thetal,qvap,80.)) # # make a sounding #