di_eff_2 = di_eff_2.collapsed('time', iris.analysis.MEAN)

        #di_eff.units = 'W m-2'

        di_eff = di_eff * -1
        in_eff = in_eff * -1
        dir_title = 'Direct effect (W/m2): (no_sulphur+biogenic) -(no_sulphur)'
        ind_title = 'Indirect effect (W/m2):(no_sulphur+biogenic) -(no_sulphur)'
        di_eff.units = 'W m-2'
        in_eff.units = 'W m-2'

        print('max value dir effect = ', np.max(di_eff.data))
        print('min value dir effect = ', np.min(di_eff.data))
        print('mean value dir effect = ', np.mean(di_eff.data))
        #plot_diff(di_eff,dir_title,-120,121,10)
        pltfunc.plot_diff_3(di_eff, dir_title, -2, 2, 'seismic')
        #pltfunc.plot_diff(di_eff,dir_title,np.min(di_eff.data),np.max(di_eff.data),'seismic')
        print('max value indir effect = ', np.max(in_eff.data))
        print('min value indir effect = ', np.min(in_eff.data))
        print('mean value indir effect = ', np.mean(in_eff.data))
        plt.savefig('dir_effect_nosulphur_2.eps', dp1=500)
        #plot_diff(in_eff,ind_title,-550,551,100)
        #pltfunc.plot_diff(in_eff,ind_title,np.min(in_eff.data),np.max(in_eff.data),'seismic')
        pltfunc.plot_diff_3(in_eff, ind_title, -2, 2, 'seismic')
        plt.savefig('indir_effect_nosulphur_2.eps', dp1=500)

        print('Direct radiative forcing -- SHORTWAVE , ', np.mean(di_eff.data))
        print('Direct radiative forcing -- LONGWAVE  , ', np.mean(in_eff.data))
        #print 'Surface albedo forcing  -- SHORTWAVE  , ',np.mean(surf_alb_sw)
        #print 'Surface albedo forcing  -- LONGWAVE   , ',np.mean(surf_alb_lw)
Ejemplo n.º 2
0
            #di_eff.units = 'W m-2'

            di_eff = di_eff * -1
            in_eff = in_eff * -1
            dir_title = 'Direct effect (W/m2) - month = ' + str(j)
            ind_title = 'Indirect effect (W/m2) - month = ' + str(j)
            #dir_title = 'Direct effect (W/m2) - (no_sulphur+biogenic)-(no_sulphur)'
            #ind_title = 'Indirect effect (W/m2) - (no_sulphur+biogenic)-(no_sulphur)'
            di_eff.units = 'W m-2'
            in_eff.units = 'W m-2'

            print('max value dir effect = ', np.max(di_eff.data))
            print('min value dir effect = ', np.min(di_eff.data))
            print('mean value dir effect = ', np.mean(di_eff.data))
            #plot_diff(di_eff,dir_title,-120,121,10)
            pltfunc.plot_diff_3(di_eff, dir_title, -1, 1, 'seismic')
            #pltfunc.plot_diff(di_eff,dir_title,np.min(di_eff.data),np.max(di_eff.data),'seismic')
            print('max value indir effect = ', np.max(in_eff.data))
            print('min value indir effect = ', np.min(in_eff.data))
            print('mean value indir effect = ', np.mean(in_eff.data))
            save_title_1 = 'direct_month_' + str(j) + '.eps'
            save_title_2 = 'indirect_month_' + str(j) + '.eps'
            plt.savefig(save_title_1, dp1=500)
            #plt.savefig('dir_effect_nosulphur_2.eps',dp1 = 500)
            #plot_diff(in_eff,ind_title,-550,551,100)
            #pltfunc.plot_diff(in_eff,ind_title,np.min(in_eff.data),np.max(in_eff.data),'seismic')
            pltfunc.plot_diff_3(in_eff, ind_title, -4, 4, 'seismic')
            plt.savefig(save_title_2, dp1=500)
            #plt.savefig('indir_effect_nosulphur_2.eps',dp1 = 500)

            print('Direct radiative forcing -- SHORTWAVE , ',
Ejemplo n.º 3
0
        di_eff_2 = di_eff_2[6,:,:,:]
        #di_eff.units = 'W m-2'

        di_eff = di_eff*-1
        in_eff = in_eff*-1
        dir_title = 'Direct forcing (W/m2): (PD) -(PI)'
        ind_title = 'Indirect forcing (W/m2):(PD)-(PI)'
        di_eff.units = 'W m-2'
        in_eff.units = 'W m-2'
        image_path = '/home/users/eeara/no_sulphur_new/images/' 
        
        print('max value dir effect = ', np.max(di_eff.data))
        print('min value dir effect = ', np.min(di_eff.data))
        print('mean value dir effect = ', np.mean(di_eff.data))
        #plot_diff(di_eff,dir_title,-120,121,10)
        pltfunc.plot_diff_3(di_eff,dir_title,-7,7,'coolwarm')
        #pltfunc.plot_diff(di_eff,dir_title,np.min(di_eff.data),np.max(di_eff.data),'seismic')
        print('max value indir effect = ', np.max(in_eff.data))
        print('min value indir effect = ', np.min(in_eff.data))
        print('mean value indir effect = ', np.mean(in_eff.data))
        plt.savefig(image_path+'dir_effect_nosulphur.png',dpi = 500)
        #plot_diff(in_eff,ind_title,-550,551,100)
        #pltfunc.plot_diff(in_eff,ind_title,np.min(in_eff.data),np.max(in_eff.data),'seismic')
        pltfunc.plot_diff_3(in_eff,ind_title,-7,7,'coolwarm')
        plt.savefig(image_path + 'indir_effect_nosulphur_pdpi.png',dpi = 500)

        
        print('Direct radiative forcing -- SHORTWAVE , ',np.mean(di_eff.data))
        print('Direct radiative forcing -- LONGWAVE  , ',np.mean(in_eff.data))
        #print 'Surface albedo forcing  -- SHORTWAVE  , ',np.mean(surf_alb_sw)
        #print 'Surface albedo forcing  -- LONGWAVE   , ',np.mean(surf_alb_lw) 
        #di_eff.units = 'W m-2'

        di_eff = di_eff * -1
        in_eff = in_eff * -1
        dir_title = 'Direct effect (W/m2): (no_sulphur+biogenic) -(no_sulphur)'
        ind_title = 'Indirect effect (W/m2):(no_sulphur+biogenic) -(no_sulphur)'
        di_eff.units = 'W m-2'
        in_eff.units = 'W m-2'
        image_path = '/home/users/eeara/no_sulphur_new/images/'

        print('max value dir effect = ', np.max(di_eff.data))
        print('min value dir effect = ', np.min(di_eff.data))
        print('mean value dir effect = ', np.mean(di_eff.data))
        #plot_diff(di_eff,dir_title,-120,121,10)
        pltfunc.plot_diff_3(di_eff, dir_title, -2, 2, 'coolwarm')
        #pltfunc.plot_diff(di_eff,dir_title,np.min(di_eff.data),np.max(di_eff.data),'seismic')
        print('max value indir effect = ', np.max(in_eff.data))
        print('min value indir effect = ', np.min(in_eff.data))
        print('mean value indir effect = ', np.mean(in_eff.data))
        plt.savefig(image_path + 'dir_effect_nosulphur.png', dpi=500)
        #plot_diff(in_eff,ind_title,-550,551,100)
        #pltfunc.plot_diff(in_eff,ind_title,np.min(in_eff.data),np.max(in_eff.data),'seismic')
        pltfunc.plot_diff_3(in_eff, ind_title, -5, 5, 'coolwarm')
        plt.savefig(image_path + 'indir_effect_nosulphur_2.png', dpi=500)

        print('Direct radiative forcing -- SHORTWAVE , ', np.mean(di_eff.data))
        print('Direct radiative forcing -- LONGWAVE  , ', np.mean(in_eff.data))
        #print 'Surface albedo forcing  -- SHORTWAVE  , ',np.mean(surf_alb_sw)
        #print 'Surface albedo forcing  -- LONGWAVE   , ',np.mean(surf_alb_lw)