Changeset 1359 for palm/trunk/SOURCE/lpm_collision_kernels.f90
- Timestamp:
- Apr 11, 2014 5:15:14 PM (10 years ago)
- File:
-
- 1 edited
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palm/trunk/SOURCE/lpm_collision_kernels.f90
r1347 r1359 20 20 ! Current revisions: 21 21 ! ----------------- 22 ! 22 ! New particle structure integrated. 23 ! Kind definition added to all floating point numbers. 23 24 ! 24 25 ! Former revisions: … … 177 178 rclass_lbound = LOG( 1.0E-6_wp ) 178 179 rclass_ubound = LOG( 2.0E-4_wp ) 179 radclass(1) = 1.0E-6 180 radclass(1) = 1.0E-6_wp 180 181 DO i = 2, radius_classes 181 182 radclass(i) = EXP( rclass_lbound + & 182 ( rclass_ubound - rclass_lbound ) * ( i-1.0 ) /& 183 ( radius_classes - 1.0 ) ) 184 ! IF ( myid == 0 ) THEN 185 ! PRINT*, 'i=', i, ' r = ', radclass(i)*1.0E6 186 ! ENDIF 183 ( rclass_ubound - rclass_lbound ) * & 184 ( i - 1.0_wp ) / ( radius_classes - 1.0_wp ) ) 187 185 ENDDO 188 186 … … 190 188 !-- Set the class bounds for dissipation in interval [0.0, 0.1] m**2/s**3 191 189 DO i = 1, dissipation_classes 192 epsclass(i) = 0.1 * REAL( i, KIND=wp ) / dissipation_classes 193 ! IF ( myid == 0 ) THEN 194 ! PRINT*, 'i=', i, ' eps = ', epsclass(i) 195 ! ENDIF 190 epsclass(i) = 0.1_wp * REAL( i, KIND=wp ) / dissipation_classes 196 191 ENDDO 197 192 ! … … 205 200 206 201 epsilon = epsclass(k) 207 urms = 2.02 * ( epsilon / 0.04_wp )**( 1.0_wp / 3.0_wp )202 urms = 2.02_wp * ( epsilon / 0.04_wp )**( 1.0_wp / 3.0_wp ) 208 203 209 204 CALL turbsd … … 240 235 241 236 PRINT*, '*** Hall kernel' 242 WRITE ( *,'(5X,20(F4.0,1X))' ) ( radclass(i)*1.0E6 , &237 WRITE ( *,'(5X,20(F4.0,1X))' ) ( radclass(i)*1.0E6_wp, & 243 238 i = 1,radius_classes ) 244 239 DO j = 1, radius_classes … … 250 245 DO i = 1, radius_classes 251 246 DO j = 1, radius_classes 252 IF ( hkernel(i,j) == 0.0 ) THEN253 hwratio(i,j) = 9999999.9 247 IF ( hkernel(i,j) == 0.0_wp ) THEN 248 hwratio(i,j) = 9999999.9_wp 254 249 ELSE 255 250 hwratio(i,j) = ckernel(i,j,k) / hkernel(i,j) … … 259 254 260 255 PRINT*, '*** epsilon = ', epsclass(k) 261 WRITE ( *,'(5X,20(F4.0,1X))' ) ( radclass(i) *1.0E6, &256 WRITE ( *,'(5X,20(F4.0,1X))' ) ( radclass(i) * 1.0E6_wp, & 262 257 i = 1,radius_classes ) 263 258 DO j = 1, radius_classes 264 ! WRITE ( *,'(F4.0,1X,20(F4.2,1X))' ) radclass(j)*1.0E6, & 265 ! ( ckernel(i,j,k), i = 1,radius_classes ) 266 WRITE ( *,'(F4.0,1X,20(F8.4,1X))' ) radclass(j)*1.0E6, & 259 WRITE ( *,'(F4.0,1X,20(F8.4,1X))' ) radclass(j) * 1.0E6_wp, & 267 260 ( hwratio(i,j), i = 1,radius_classes ) 268 261 ENDDO … … 292 285 293 286 USE particle_attributes, & 294 ONLY: prt_count, prt_start_index,radius_classes, wang_kernel287 ONLY: prt_count, radius_classes, wang_kernel 295 288 296 289 IMPLICIT NONE … … 305 298 306 299 307 pstart = prt_start_index(k1,j1,i1)308 pend = prt_ start_index(k1,j1,i1) + prt_count(k1,j1,i1) - 1300 pstart = 1 301 pend = prt_count(k1,j1,i1) 309 302 radius_classes = prt_count(k1,j1,i1) 310 303 … … 319 312 epsilon = diss(k1,j1,i1) ! dissipation rate in m**2/s**3 320 313 ELSE 321 epsilon = 0.0 314 epsilon = 0.0_wp 322 315 ENDIF 323 urms = 2.02 * ( epsilon / 0.04_wp )**( 0.33333333333_wp )324 325 IF ( wang_kernel .AND. epsilon > 1.0E-7 ) THEN316 urms = 2.02_wp * ( epsilon / 0.04_wp )**( 0.33333333333_wp ) 317 318 IF ( wang_kernel .AND. epsilon > 1.0E-7_wp ) THEN 326 319 ! 327 320 !-- Call routines to calculate efficiencies for the Wang kernel … … 442 435 lambda_re = urms**2 * SQRT( 15.0_wp / epsilon / molecular_viscosity ) 443 436 tl = urms**2 / epsilon ! in s 444 lf = 0.5 * urms**3 / epsilon! in m437 lf = 0.5_wp * urms**3 / epsilon ! in m 445 438 tauk = SQRT( molecular_viscosity / epsilon ) ! in s 446 439 eta = ( molecular_viscosity**3 / epsilon )**0.25_wp ! in m 447 440 vk = eta / tauk 448 441 449 ao = ( 11.0 + 7.0 * lambda_re ) / ( 205.0+ lambda_re )450 tt = SQRT( 2.0 * lambda_re / ( SQRT( 15.0_wp ) * ao ) ) * tauk! in s442 ao = ( 11.0_wp + 7.0_wp * lambda_re ) / ( 205.0_wp + lambda_re ) 443 tt = SQRT( 2.0_wp * lambda_re / ( SQRT( 15.0_wp ) * ao ) ) * tauk ! in s 451 444 452 445 CALL fallg ! gives winf in m/s … … 461 454 z = tt / tl 462 455 be = SQRT( 2.0_wp ) * lambda / lf 463 bbb = SQRT( 1.0 - 2.0* be**2 )464 d1 = ( 1.0 + bbb ) / ( 2.0* bbb )465 e1 = lf * ( 1.0 + bbb ) * 0.5! in m466 d2 = ( 1.0 - bbb ) * 0.5/ bbb467 e2 = lf * ( 1.0 - bbb ) * 0.5! in m468 ccc = SQRT( 1.0 - 2.0* z**2 )469 b1 = ( 1.0 + ccc ) * 0.5/ ccc470 c1 = tl * ( 1.0 + ccc ) * 0.5! in s471 b2 = ( 1.0 - ccc ) * 0.5/ ccc472 c2 = tl * ( 1.0 - ccc ) * 0.5! in s456 bbb = SQRT( 1.0_wp - 2.0_wp * be**2 ) 457 d1 = ( 1.0_wp + bbb ) / ( 2.0_wp * bbb ) 458 e1 = lf * ( 1.0_wp + bbb ) * 0.5_wp ! in m 459 d2 = ( 1.0_wp - bbb ) * 0.5_wp / bbb 460 e2 = lf * ( 1.0_wp - bbb ) * 0.5_wp ! in m 461 ccc = SQRT( 1.0_wp - 2.0_wp * z**2 ) 462 b1 = ( 1.0_wp + ccc ) * 0.5_wp / ccc 463 c1 = tl * ( 1.0_wp + ccc ) * 0.5_wp ! in s 464 b2 = ( 1.0_wp - ccc ) * 0.5_wp / ccc 465 c2 = tl * ( 1.0_wp - ccc ) * 0.5_wp ! in s 473 466 474 467 DO i = 1, radius_classes … … 509 502 b2 * d2* zhi(c2,e2,v1,t1,v2,t2) 510 503 fr = d1 * EXP( -rrp / e1 ) - d2 * EXP( -rrp / e2 ) 511 v1v2xy = v1v2xy * fr * urms**2 / tau(i) / tau(j) ! in m**2/s**2512 wrtur2xy = vrms1xy**2 + vrms2xy**2 - 2.0 * v1v2xy! in m**2/s**2513 IF ( wrtur2xy < 0.0 ) wrtur2xy = 0.0504 v1v2xy = v1v2xy * fr * urms**2 / tau(i) / tau(j) ! in m**2/s**2 505 wrtur2xy = vrms1xy**2 + vrms2xy**2 - 2.0_wp * v1v2xy ! in m**2/s**2 506 IF ( wrtur2xy < 0.0_wp ) wrtur2xy = 0.0_wp 514 507 wrgrav2 = pi / 8.0_wp * ( winf(j) - winf(i) )**2 515 508 wrfin = SQRT( ( 2.0_wp / pi ) * ( wrtur2xy + wrgrav2) ) ! in m/s … … 523 516 ENDIF 524 517 525 xx = -0.1988 * sst**4 + 1.5275 * sst**3 - 4.2942 * sst**2 +&526 5.3406* sst527 IF ( xx < 0.0 ) xx = 0.0528 yy = 0.1886 * EXP( 20.306_wp / lambda_re )518 xx = -0.1988_wp * sst**4 + 1.5275_wp * sst**3 - 4.2942_wp * & 519 sst**2 + 5.3406_wp * sst 520 IF ( xx < 0.0_wp ) xx = 0.0_wp 521 yy = 0.1886_wp * EXP( 20.306_wp / lambda_re ) 529 522 530 523 c1_gr = xx / ( g / vk * tauk )**yy 531 524 532 525 ao_gr = ao + ( pi / 8.0_wp) * ( g / vk * tauk )**2 533 fao_gr = 20.115 * SQRT( ao_gr / lambda_re )526 fao_gr = 20.115_wp * SQRT( ao_gr / lambda_re ) 534 527 rc = SQRT( fao_gr * ABS( st(j) - st(i) ) ) * eta ! in cm 535 528 536 grfin = ( ( eta**2 + rc**2 ) / ( rrp**2 + rc**2) )**( c1_gr*0.5 )537 IF ( grfin < 1.0 ) grfin = 1.0538 539 gck(i,j) = 2.0 * pi * rrp**2 * wrfin * grfin! in cm**3/s529 grfin = ( ( eta**2 + rc**2 ) / ( rrp**2 + rc**2) )**( c1_gr*0.5_wp ) 530 IF ( grfin < 1.0_wp ) grfin = 1.0_wp 531 532 gck(i,j) = 2.0_wp * pi * rrp**2 * wrfin * grfin ! in cm**3/s 540 533 gck(j,i) = gck(i,j) 541 534 … … 559 552 REAL(wp) :: vsett !: 560 553 561 aa1 = 1.0 / tau0 + 1.0/ a + vsett / b562 phi_w = 1.0 / aa1 - 0.5* vsett / b / aa1**2 ! in s554 aa1 = 1.0_wp / tau0 + 1.0_wp / a + vsett / b 555 phi_w = 1.0_wp / aa1 - 0.5_wp * vsett / b / aa1**2 ! in s 563 556 564 557 END FUNCTION phi_w … … 585 578 REAL(wp) :: vsett2 !: 586 579 587 aa1 = vsett2 / b - 1.0 / tau2 - 1.0 / a 588 aa2 = vsett1 / b + 1.0 / tau1 + 1.0 / a 589 aa3 = ( vsett1 - vsett2 ) / b + 1.0 / tau1 + 1.0 / tau2 590 aa4 = ( vsett2 / b )**2 - ( 1.0 / tau2 + 1.0 / a )**2 591 aa5 = vsett2 / b + 1.0 / tau2 + 1.0 / a 592 aa6 = 1.0 / tau1 - 1.0 / a + ( 1.0 / tau2 + 1.0 / a) * vsett1 / vsett2 593 zhi = (1.0 / aa1 - 1.0 / aa2 ) * ( vsett1 - vsett2 ) * 0.5 / b / aa3**2 & 594 + (4.0 / aa4 - 1.0 / aa5**2 - 1.0 / aa1**2 ) * vsett2 * 0.5 / b /aa6& 595 + (2.0 * ( b / aa2 - b / aa1 ) - vsett1 / aa2**2 + vsett2 / aa1**2 )& 596 * 0.5 / b / aa3 ! in s**2 580 aa1 = vsett2 / b - 1.0_wp / tau2 - 1.0_wp / a 581 aa2 = vsett1 / b + 1.0_wp / tau1 + 1.0_wp / a 582 aa3 = ( vsett1 - vsett2 ) / b + 1.0_wp / tau1 + 1.0_wp / tau2 583 aa4 = ( vsett2 / b )**2 - ( 1.0_wp / tau2 + 1.0_wp / a )**2 584 aa5 = vsett2 / b + 1.0_wp / tau2 + 1.0_wp / a 585 aa6 = 1.0_wp / tau1 - 1.0_wp / a + ( 1.0_wp / tau2 + 1.0_wp / a) * & 586 vsett1 / vsett2 587 zhi = (1.0_wp / aa1 - 1.0_wp / aa2 ) * ( vsett1 - vsett2 ) * 0.5_wp / & 588 b / aa3**2 + ( 4.0_wp / aa4 - 1.0_wp / aa5**2 - 1.0_wp / aa1**2 ) & 589 * vsett2 * 0.5_wp / b /aa6 + ( 2.0_wp * ( b / aa2 - b / aa1 ) - & 590 vsett1 / aa2**2 + vsett2 / aa1**2 ) * 0.5_wp / b / aa3 ! in s**2 597 591 598 592 END FUNCTION zhi … … 645 639 646 640 first = .FALSE. 647 b = (/ -0.318657E1, 0.992696E0, -0.153193E-2, -0.987059E-3, & 648 -0.578878E-3, 0.855176E-4, -0.327815E-5 /) 649 c = (/ -0.500015E1, 0.523778E1, -0.204914E1, 0.475294E0, & 650 -0.542819E-1, 0.238449E-2 /) 641 b = (/ -0.318657E1_wp, 0.992696E0_wp, -0.153193E-2_wp, & 642 -0.987059E-3_wp, -0.578878E-3_wp, 0.855176E-4_wp, & 643 -0.327815E-5_wp /) 644 c = (/ -0.500015E1_wp, 0.523778E1_wp, -0.204914E1_wp, & 645 0.475294E0_wp, -0.542819E-1_wp, 0.238449E-2_wp /) 651 646 652 647 ! 653 648 !-- Parameter values for p = 1013,25 hPa and T = 293,15 K 654 eta = 1.818E-5 ! in kg/(m s)655 xlamb = 6.6E-8 ! in m656 rho_a = 1.204 ! in kg/m**3657 cunh = 1.26 * xlamb ! in m658 sigma = 0.07363 ! in kg/s**2659 stok = 2.0 * g * ( rho_l - rho_a ) / ( 9.0* eta ) ! in 1/(m s)660 stb = 32.0 * rho_a * ( rho_l - rho_a) * g / (3.0* eta * eta)649 eta = 1.818E-5_wp ! in kg/(m s) 650 xlamb = 6.6E-8_wp ! in m 651 rho_a = 1.204_wp ! in kg/m**3 652 cunh = 1.26_wp * xlamb ! in m 653 sigma = 0.07363_wp ! in kg/s**2 654 stok = 2.0_wp * g * ( rho_l - rho_a ) / ( 9.0_wp * eta ) ! in 1/(m s) 655 stb = 32.0_wp * rho_a * ( rho_l - rho_a) * g / (3.0_wp * eta * eta) 661 656 phy = sigma**3 * rho_a**2 / ( eta**4 * g * ( rho_l - rho_a ) ) 662 657 py = phy**( 1.0_wp / 6.0_wp ) … … 666 661 DO j = 1, radius_classes 667 662 668 IF ( radclass(j) <= 1.0E-5 )THEN663 IF ( radclass(j) <= 1.0E-5_wp ) THEN 669 664 670 665 winf(j) = stok * ( radclass(j)**2 + cunh * radclass(j) ) 671 666 672 ELSEIF ( radclass(j) > 1.0E-5 .AND. radclass(j) <= 5.35E-4) THEN667 ELSEIF ( radclass(j) > 1.0E-5_wp .AND. radclass(j) <= 5.35E-4_wp ) THEN 673 668 674 669 x = LOG( stb * radclass(j)**3 ) 675 y = 0.0 670 y = 0.0_wp 676 671 677 672 DO i = 1, 7 … … 681 676 !-- Note: this Eq. is wrong in (Pruppacher and Klett, 1997, p. 418) 682 677 !-- for correct version see (Beard, 1976) 683 xrey = ( 1.0 + cunh / radclass(j) ) * EXP( y )684 685 winf(j) = xrey * eta / ( 2.0 * rho_a * radclass(j) )686 687 ELSEIF ( radclass(j) > 5.35E-4 ) THEN688 689 IF ( radclass(j) > 0.0035 ) THEN690 bond = g * ( rho_l - rho_a ) * 0.0035 **2 / sigma678 xrey = ( 1.0_wp + cunh / radclass(j) ) * EXP( y ) 679 680 winf(j) = xrey * eta / ( 2.0_wp * rho_a * radclass(j) ) 681 682 ELSEIF ( radclass(j) > 5.35E-4_wp ) THEN 683 684 IF ( radclass(j) > 0.0035_wp ) THEN 685 bond = g * ( rho_l - rho_a ) * 0.0035_wp**2 / sigma 691 686 ELSE 692 687 bond = g * ( rho_l - rho_a ) * radclass(j)**2 / sigma 693 688 ENDIF 694 689 695 x = LOG( 16.0 * bond * py / 3.0_wp )696 y = 0.0 690 x = LOG( 16.0_wp * bond * py / 3.0_wp ) 691 y = 0.0_wp 697 692 698 693 DO i = 1, 6 … … 702 697 xrey = py * EXP( y ) 703 698 704 IF ( radclass(j) > 0.0035 ) THEN705 winf(j) = xrey * eta / ( 2.0 * rho_a * 0.0035_wp )699 IF ( radclass(j) > 0.0035_wp ) THEN 700 winf(j) = xrey * eta / ( 2.0_wp * rho_a * 0.0035_wp ) 706 701 ELSE 707 winf(j) = xrey * eta / ( 2.0 * rho_a * radclass(j) )702 winf(j) = xrey * eta / ( 2.0_wp * rho_a * radclass(j) ) 708 703 ENDIF 709 704 … … 752 747 753 748 first = .FALSE. 754 r0 = (/ 6.0, 8.0, 10.0, 15.0, 20.0, 25.0, 30.0, 40.0, 50.0, 60., & 755 70.0, 100.0, 150.0, 200.0, 300.0 /) 756 rat = (/ 0.00, 0.05, 0.10, 0.15, 0.20, 0.25, 0.30, 0.35, 0.40, 0.45, & 757 0.50, 0.55, 0.60, 0.65, 0.70, 0.75, 0.80, 0.85, 0.90, 0.95, & 758 1.00 /) 759 760 ecoll(:,1) = (/0.001, 0.001, 0.001, 0.001, 0.001, 0.001, 0.001, & 761 0.001, 0.001, 0.001, 0.001, 0.001, 0.001, 0.001, 0.001/) 762 ecoll(:,2) = (/0.003, 0.003, 0.003, 0.004, 0.005, 0.005, 0.005, & 763 0.010, 0.100, 0.050, 0.200, 0.500, 0.770, 0.870, 0.970/) 764 ecoll(:,3) = (/0.007, 0.007, 0.007, 0.008, 0.009, 0.010, 0.010, & 765 0.070, 0.400, 0.430, 0.580, 0.790, 0.930, 0.960, 1.000/) 766 ecoll(:,4) = (/0.009, 0.009, 0.009, 0.012, 0.015, 0.010, 0.020, & 767 0.280, 0.600, 0.640, 0.750, 0.910, 0.970, 0.980, 1.000/) 768 ecoll(:,5) = (/0.014, 0.014, 0.014, 0.015, 0.016, 0.030, 0.060, & 769 0.500, 0.700, 0.770, 0.840, 0.950, 0.970, 1.000, 1.000/) 770 ecoll(:,6) = (/0.017, 0.017, 0.017, 0.020, 0.022, 0.060, 0.100, & 771 0.620, 0.780, 0.840, 0.880, 0.950, 1.000, 1.000, 1.000/) 772 ecoll(:,7) = (/0.030, 0.030, 0.024, 0.022, 0.032, 0.062, 0.200, & 773 0.680, 0.830, 0.870, 0.900, 0.950, 1.000, 1.000, 1.000/) 774 ecoll(:,8) = (/0.025, 0.025, 0.025, 0.036, 0.043, 0.130, 0.270, & 775 0.740, 0.860, 0.890, 0.920, 1.000, 1.000, 1.000, 1.000/) 776 ecoll(:,9) = (/0.027, 0.027, 0.027, 0.040, 0.052, 0.200, 0.400, & 777 0.780, 0.880, 0.900, 0.940, 1.000, 1.000, 1.000, 1.000/) 778 ecoll(:,10)= (/0.030, 0.030, 0.030, 0.047, 0.064, 0.250, 0.500, & 779 0.800, 0.900, 0.910, 0.950, 1.000, 1.000, 1.000, 1.000/) 780 ecoll(:,11)= (/0.040, 0.040, 0.033, 0.037, 0.068, 0.240, 0.550, & 781 0.800, 0.900, 0.910, 0.950, 1.000, 1.000, 1.000, 1.000/) 782 ecoll(:,12)= (/0.035, 0.035, 0.035, 0.055, 0.079, 0.290, 0.580, & 783 0.800, 0.900, 0.910, 0.950, 1.000, 1.000, 1.000, 1.000/) 784 ecoll(:,13)= (/0.037, 0.037, 0.037, 0.062, 0.082, 0.290, 0.590, & 785 0.780, 0.900, 0.910, 0.950, 1.000, 1.000, 1.000, 1.000/) 786 ecoll(:,14)= (/0.037, 0.037, 0.037, 0.060, 0.080, 0.290, 0.580, & 787 0.770, 0.890, 0.910, 0.950, 1.000, 1.000, 1.000, 1.000/) 788 ecoll(:,15)= (/0.037, 0.037, 0.037, 0.041, 0.075, 0.250, 0.540, & 789 0.760, 0.880, 0.920, 0.950, 1.000, 1.000, 1.000, 1.000/) 790 ecoll(:,16)= (/0.037, 0.037, 0.037, 0.052, 0.067, 0.250, 0.510, & 791 0.770, 0.880, 0.930, 0.970, 1.000, 1.000, 1.000, 1.000/) 792 ecoll(:,17)= (/0.037, 0.037, 0.037, 0.047, 0.057, 0.250, 0.490, & 793 0.770, 0.890, 0.950, 1.000, 1.000, 1.000, 1.000, 1.000/) 794 ecoll(:,18)= (/0.036, 0.036, 0.036, 0.042, 0.048, 0.230, 0.470, & 795 0.780, 0.920, 1.000, 1.020, 1.020, 1.020, 1.020, 1.020/) 796 ecoll(:,19)= (/0.040, 0.040, 0.035, 0.033, 0.040, 0.112, 0.450, & 797 0.790, 1.010, 1.030, 1.040, 1.040, 1.040, 1.040, 1.040/) 798 ecoll(:,20)= (/0.033, 0.033, 0.033, 0.033, 0.033, 0.119, 0.470, & 799 0.950, 1.300, 1.700, 2.300, 2.300, 2.300, 2.300, 2.300/) 800 ecoll(:,21)= (/0.027, 0.027, 0.027, 0.027, 0.027, 0.125, 0.520, & 801 1.400, 2.300, 3.000, 4.000, 4.000, 4.000, 4.000, 4.000/) 749 r0 = (/ 6.0_wp, 8.0_wp, 10.0_wp, 15.0_wp, 20.0_wp, 25.0_wp, & 750 30.0_wp, 40.0_wp, 50.0_wp, 60.0_wp, 70.0_wp, 100.0_wp, & 751 150.0_wp, 200.0_wp, 300.0_wp /) 752 753 rat = (/ 0.00_wp, 0.05_wp, 0.10_wp, 0.15_wp, 0.20_wp, 0.25_wp, & 754 0.30_wp, 0.35_wp, 0.40_wp, 0.45_wp, 0.50_wp, 0.55_wp, & 755 0.60_wp, 0.65_wp, 0.70_wp, 0.75_wp, 0.80_wp, 0.85_wp, & 756 0.90_wp, 0.95_wp, 1.00_wp /) 757 758 ecoll(:,1) = (/ 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp, & 759 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp, & 760 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp, 0.001_wp /) 761 ecoll(:,2) = (/ 0.003_wp, 0.003_wp, 0.003_wp, 0.004_wp, 0.005_wp, & 762 0.005_wp, 0.005_wp, 0.010_wp, 0.100_wp, 0.050_wp, & 763 0.200_wp, 0.500_wp, 0.770_wp, 0.870_wp, 0.970_wp /) 764 ecoll(:,3) = (/ 0.007_wp, 0.007_wp, 0.007_wp, 0.008_wp, 0.009_wp, & 765 0.010_wp, 0.010_wp, 0.070_wp, 0.400_wp, 0.430_wp, & 766 0.580_wp, 0.790_wp, 0.930_wp, 0.960_wp, 1.000_wp /) 767 ecoll(:,4) = (/ 0.009_wp, 0.009_wp, 0.009_wp, 0.012_wp, 0.015_wp, & 768 0.010_wp, 0.020_wp, 0.280_wp, 0.600_wp, 0.640_wp, & 769 0.750_wp, 0.910_wp, 0.970_wp, 0.980_wp, 1.000_wp /) 770 ecoll(:,5) = (/ 0.014_wp, 0.014_wp, 0.014_wp, 0.015_wp, 0.016_wp, & 771 0.030_wp, 0.060_wp, 0.500_wp, 0.700_wp, 0.770_wp, & 772 0.840_wp, 0.950_wp, 0.970_wp, 1.000_wp, 1.000_wp /) 773 ecoll(:,6) = (/ 0.017_wp, 0.017_wp, 0.017_wp, 0.020_wp, 0.022_wp, & 774 0.060_wp, 0.100_wp, 0.620_wp, 0.780_wp, 0.840_wp, & 775 0.880_wp, 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 776 ecoll(:,7) = (/ 0.030_wp, 0.030_wp, 0.024_wp, 0.022_wp, 0.032_wp, & 777 0.062_wp, 0.200_wp, 0.680_wp, 0.830_wp, 0.870_wp, & 778 0.900_wp, 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 779 ecoll(:,8) = (/ 0.025_wp, 0.025_wp, 0.025_wp, 0.036_wp, 0.043_wp, & 780 0.130_wp, 0.270_wp, 0.740_wp, 0.860_wp, 0.890_wp, & 781 0.920_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 782 ecoll(:,9) = (/ 0.027_wp, 0.027_wp, 0.027_wp, 0.040_wp, 0.052_wp, & 783 0.200_wp, 0.400_wp, 0.780_wp, 0.880_wp, 0.900_wp, & 784 0.940_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 785 ecoll(:,10) = (/ 0.030_wp, 0.030_wp, 0.030_wp, 0.047_wp, 0.064_wp, & 786 0.250_wp, 0.500_wp, 0.800_wp, 0.900_wp, 0.910_wp, & 787 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 788 ecoll(:,11) = (/ 0.040_wp, 0.040_wp, 0.033_wp, 0.037_wp, 0.068_wp, & 789 0.240_wp, 0.550_wp, 0.800_wp, 0.900_wp, 0.910_wp, & 790 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 791 ecoll(:,12) = (/ 0.035_wp, 0.035_wp, 0.035_wp, 0.055_wp, 0.079_wp, & 792 0.290_wp, 0.580_wp, 0.800_wp, 0.900_wp, 0.910_wp, & 793 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 794 ecoll(:,13) = (/ 0.037_wp, 0.037_wp, 0.037_wp, 0.062_wp, 0.082_wp, & 795 0.290_wp, 0.590_wp, 0.780_wp, 0.900_wp, 0.910_wp, & 796 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 797 ecoll(:,14) = (/ 0.037_wp, 0.037_wp, 0.037_wp, 0.060_wp, 0.080_wp, & 798 0.290_wp, 0.580_wp, 0.770_wp, 0.890_wp, 0.910_wp, & 799 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 800 ecoll(:,15) = (/ 0.037_wp, 0.037_wp, 0.037_wp, 0.041_wp, 0.075_wp, & 801 0.250_wp, 0.540_wp, 0.760_wp, 0.880_wp, 0.920_wp, & 802 0.950_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 803 ecoll(:,16) = (/ 0.037_wp, 0.037_wp, 0.037_wp, 0.052_wp, 0.067_wp, & 804 0.250_wp, 0.510_wp, 0.770_wp, 0.880_wp, 0.930_wp, & 805 0.970_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 806 ecoll(:,17) = (/ 0.037_wp, 0.037_wp, 0.037_wp, 0.047_wp, 0.057_wp, & 807 0.250_wp, 0.490_wp, 0.770_wp, 0.890_wp, 0.950_wp, & 808 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp, 1.000_wp /) 809 ecoll(:,18) = (/ 0.036_wp, 0.036_wp, 0.036_wp, 0.042_wp, 0.048_wp, & 810 0.230_wp, 0.470_wp, 0.780_wp, 0.920_wp, 1.000_wp, & 811 1.020_wp, 1.020_wp, 1.020_wp, 1.020_wp, 1.020_wp /) 812 ecoll(:,19) = (/ 0.040_wp, 0.040_wp, 0.035_wp, 0.033_wp, 0.040_wp, & 813 0.112_wp, 0.450_wp, 0.790_wp, 1.010_wp, 1.030_wp, & 814 1.040_wp, 1.040_wp, 1.040_wp, 1.040_wp, 1.040_wp /) 815 ecoll(:,20) = (/ 0.033_wp, 0.033_wp, 0.033_wp, 0.033_wp, 0.033_wp, & 816 0.119_wp, 0.470_wp, 0.950_wp, 1.300_wp, 1.700_wp, & 817 2.300_wp, 2.300_wp, 2.300_wp, 2.300_wp, 2.300_wp /) 818 ecoll(:,21) = (/ 0.027_wp, 0.027_wp, 0.027_wp, 0.027_wp, 0.027_wp, & 819 0.125_wp, 0.520_wp, 1.400_wp, 2.300_wp, 3.000_wp, & 820 4.000_wp, 4.000_wp, 4.000_wp, 4.000_wp, 4.000_wp /) 802 821 ENDIF 803 822 … … 832 851 pp = ( ( radclass(j) * 1.0E06_wp ) - r0(ir-1) ) / & 833 852 ( r0(ir) - r0(ir-1) ) 834 qq = ( rq- rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 835 ec(j,i) = ( 1.0-pp ) * ( 1.0-qq ) * ecoll(ir-1,iq-1) & 836 + pp * ( 1.0-qq ) * ecoll(ir,iq-1) & 837 + qq * ( 1.0-pp ) * ecoll(ir-1,iq) & 853 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 854 ec(j,i) = ( 1.0_wp - pp ) * ( 1.0_wp - qq ) & 855 * ecoll(ir-1,iq-1) & 856 + pp * ( 1.0_wp - qq ) * ecoll(ir,iq-1) & 857 + qq * ( 1.0_wp - pp ) * ecoll(ir-1,iq) & 838 858 + pp * qq * ecoll(ir,iq) 839 859 ELSE 840 860 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 841 ec(j,i) = ( 1.0-qq) * ecoll(1,iq-1) + qq * ecoll(1,iq)861 ec(j,i) = ( 1.0_wp - qq ) * ecoll(1,iq-1) + qq * ecoll(1,iq) 842 862 ENDIF 843 863 ELSE 844 864 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 845 ek = ( 1.0 - qq ) * ecoll(15,iq-1) + qq * ecoll(15,iq)865 ek = ( 1.0_wp - qq ) * ecoll(15,iq-1) + qq * ecoll(15,iq) 846 866 ec(j,i) = MIN( ek, 1.0_wp ) 847 867 ENDIF 848 868 849 IF ( ec(j,i) < 1.0E-20 ) ec(j,i) = 0.0869 IF ( ec(j,i) < 1.0E-20_wp ) ec(j,i) = 0.0_wp 850 870 851 871 ec(i,j) = ec(j,i) … … 901 921 first = .FALSE. 902 922 903 r0 = (/ 10.0, 20.0, 30.0, 40.0, 50.0, 60.0, 100.0 /) 904 rat = (/ 0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0 /) 923 r0 = (/ 10.0_wp, 20.0_wp, 30.0_wp, 40.0_wp, 50.0_wp, 60.0_wp, & 924 100.0_wp /) 925 926 rat = (/ 0.0_wp, 0.1_wp, 0.2_wp, 0.3_wp, 0.4_wp, 0.5_wp, 0.6_wp, & 927 0.7_wp, 0.8_wp, 0.9_wp, 1.0_wp /) 905 928 ! 906 929 !-- for 100 cm**2/s**3 907 ecoll_100(:,1) = (/1.74, 1.74, 1.773, 1.49, 1.207, 1.207, 1.0 /) 908 ecoll_100(:,2) = (/1.46, 1.46, 1.421, 1.245, 1.069, 1.069, 1.0 /) 909 ecoll_100(:,3) = (/1.32, 1.32, 1.245, 1.123, 1.000, 1.000, 1.0 /) 910 ecoll_100(:,4) = (/1.250, 1.250, 1.148, 1.087, 1.025, 1.025, 1.0 /) 911 ecoll_100(:,5) = (/1.186, 1.186, 1.066, 1.060, 1.056, 1.056, 1.0 /) 912 ecoll_100(:,6) = (/1.045, 1.045, 1.000, 1.014, 1.028, 1.028, 1.0 /) 913 ecoll_100(:,7) = (/1.070, 1.070, 1.030, 1.038, 1.046, 1.046, 1.0 /) 914 ecoll_100(:,8) = (/1.000, 1.000, 1.054, 1.042, 1.029, 1.029, 1.0 /) 915 ecoll_100(:,9) = (/1.223, 1.223, 1.117, 1.069, 1.021, 1.021, 1.0 /) 916 ecoll_100(:,10)= (/1.570, 1.570, 1.244, 1.166, 1.088, 1.088, 1.0 /) 917 ecoll_100(:,11)= (/20.3, 20.3, 14.6 , 8.61, 2.60, 2.60 , 1.0 /) 930 ecoll_100(:,1) = (/ 1.74_wp, 1.74_wp, 1.773_wp, 1.49_wp, & 931 1.207_wp, 1.207_wp, 1.0_wp /) 932 ecoll_100(:,2) = (/ 1.46_wp, 1.46_wp, 1.421_wp, 1.245_wp, & 933 1.069_wp, 1.069_wp, 1.0_wp /) 934 ecoll_100(:,3) = (/ 1.32_wp, 1.32_wp, 1.245_wp, 1.123_wp, & 935 1.000_wp, 1.000_wp, 1.0_wp /) 936 ecoll_100(:,4) = (/ 1.250_wp, 1.250_wp, 1.148_wp, 1.087_wp, & 937 1.025_wp, 1.025_wp, 1.0_wp /) 938 ecoll_100(:,5) = (/ 1.186_wp, 1.186_wp, 1.066_wp, 1.060_wp, & 939 1.056_wp, 1.056_wp, 1.0_wp /) 940 ecoll_100(:,6) = (/ 1.045_wp, 1.045_wp, 1.000_wp, 1.014_wp, & 941 1.028_wp, 1.028_wp, 1.0_wp /) 942 ecoll_100(:,7) = (/ 1.070_wp, 1.070_wp, 1.030_wp, 1.038_wp, & 943 1.046_wp, 1.046_wp, 1.0_wp /) 944 ecoll_100(:,8) = (/ 1.000_wp, 1.000_wp, 1.054_wp, 1.042_wp, & 945 1.029_wp, 1.029_wp, 1.0_wp /) 946 ecoll_100(:,9) = (/ 1.223_wp, 1.223_wp, 1.117_wp, 1.069_wp, & 947 1.021_wp, 1.021_wp, 1.0_wp /) 948 ecoll_100(:,10) = (/ 1.570_wp, 1.570_wp, 1.244_wp, 1.166_wp, & 949 1.088_wp, 1.088_wp, 1.0_wp /) 950 ecoll_100(:,11) = (/ 20.3_wp, 20.3_wp, 14.6_wp, 8.61_wp, & 951 2.60_wp, 2.60_wp, 1.0_wp /) 918 952 ! 919 953 !-- for 400 cm**2/s**3 920 ecoll_400(:,1) = (/4.976, 4.976, 3.593, 2.519, 1.445, 1.445, 1.0 /) 921 ecoll_400(:,2) = (/2.984, 2.984, 2.181, 1.691, 1.201, 1.201, 1.0 /) 922 ecoll_400(:,3) = (/1.988, 1.988, 1.475, 1.313, 1.150, 1.150, 1.0 /) 923 ecoll_400(:,4) = (/1.490, 1.490, 1.187, 1.156, 1.126, 1.126, 1.0 /) 924 ecoll_400(:,5) = (/1.249, 1.249, 1.088, 1.090, 1.092, 1.092, 1.0 /) 925 ecoll_400(:,6) = (/1.139, 1.139, 1.130, 1.091, 1.051, 1.051, 1.0 /) 926 ecoll_400(:,7) = (/1.220, 1.220, 1.190, 1.138, 1.086, 1.086, 1.0 /) 927 ecoll_400(:,8) = (/1.325, 1.325, 1.267, 1.165, 1.063, 1.063, 1.0 /) 928 ecoll_400(:,9) = (/1.716, 1.716, 1.345, 1.223, 1.100, 1.100, 1.0 /) 929 ecoll_400(:,10)= (/3.788, 3.788, 1.501, 1.311, 1.120, 1.120, 1.0 /) 930 ecoll_400(:,11)= (/36.52, 36.52, 19.16, 22.80, 26.0, 26.0, 1.0 /) 954 ecoll_400(:,1) = (/ 4.976_wp, 4.976_wp, 3.593_wp, 2.519_wp, & 955 1.445_wp, 1.445_wp, 1.0_wp /) 956 ecoll_400(:,2) = (/ 2.984_wp, 2.984_wp, 2.181_wp, 1.691_wp, & 957 1.201_wp, 1.201_wp, 1.0_wp /) 958 ecoll_400(:,3) = (/ 1.988_wp, 1.988_wp, 1.475_wp, 1.313_wp, & 959 1.150_wp, 1.150_wp, 1.0_wp /) 960 ecoll_400(:,4) = (/ 1.490_wp, 1.490_wp, 1.187_wp, 1.156_wp, & 961 1.126_wp, 1.126_wp, 1.0_wp /) 962 ecoll_400(:,5) = (/ 1.249_wp, 1.249_wp, 1.088_wp, 1.090_wp, & 963 1.092_wp, 1.092_wp, 1.0_wp /) 964 ecoll_400(:,6) = (/ 1.139_wp, 1.139_wp, 1.130_wp, 1.091_wp, & 965 1.051_wp, 1.051_wp, 1.0_wp /) 966 ecoll_400(:,7) = (/ 1.220_wp, 1.220_wp, 1.190_wp, 1.138_wp, & 967 1.086_wp, 1.086_wp, 1.0_wp /) 968 ecoll_400(:,8) = (/ 1.325_wp, 1.325_wp, 1.267_wp, 1.165_wp, & 969 1.063_wp, 1.063_wp, 1.0_wp /) 970 ecoll_400(:,9) = (/ 1.716_wp, 1.716_wp, 1.345_wp, 1.223_wp, & 971 1.100_wp, 1.100_wp, 1.0_wp /) 972 ecoll_400(:,10) = (/ 3.788_wp, 3.788_wp, 1.501_wp, 1.311_wp, & 973 1.120_wp, 1.120_wp, 1.0_wp /) 974 ecoll_400(:,11) = (/ 36.52_wp, 36.52_wp, 19.16_wp, 22.80_wp, & 975 26.0_wp, 26.0_wp, 1.0_wp /) 931 976 932 977 ENDIF … … 964 1009 ENDDO 965 1010 966 y1 = 0.0001 ! for 0 m**2/s**31011 y1 = 0.0001_wp ! for 0 m**2/s**3 967 1012 968 1013 IF ( ir < 8 ) THEN 969 1014 IF ( ir >= 2 ) THEN 970 pp = ( radclass(j)*1.0E6 - r0(ir-1) ) / ( r0(ir) - r0(ir-1) )1015 pp = ( radclass(j)*1.0E6_wp - r0(ir-1) ) / ( r0(ir) - r0(ir-1) ) 971 1016 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 972 y2 = ( 1.0 -pp ) * ( 1.0-qq ) * ecoll_100(ir-1,iq-1) +&973 pp * ( 1.0 -qq ) * ecoll_100(ir,iq-1) +&974 qq * ( 1.0 -pp ) * ecoll_100(ir-1,iq) +&975 pp * qq * ecoll_100(ir,iq)976 y3 = ( 1.0-pp ) * ( 1.0 -qq ) * ecoll_400(ir-1,iq-1) +&977 pp * ( 1.0 -qq ) * ecoll_400(ir,iq-1) +&978 qq * ( 1.0 -pp ) * ecoll_400(ir-1,iq) +&979 pp * qq * ecoll_400(ir,iq)1017 y2 = ( 1.0_wp - pp ) * ( 1.0_wp - qq ) * ecoll_100(ir-1,iq-1) + & 1018 pp * ( 1.0_wp - qq ) * ecoll_100(ir,iq-1) + & 1019 qq * ( 1.0_wp - pp ) * ecoll_100(ir-1,iq) + & 1020 pp * qq * ecoll_100(ir,iq) 1021 y3 = ( 1.0-pp ) * ( 1.0_wp - qq ) * ecoll_400(ir-1,iq-1) + & 1022 pp * ( 1.0_wp - qq ) * ecoll_400(ir,iq-1) + & 1023 qq * ( 1.0_wp - pp ) * ecoll_400(ir-1,iq) + & 1024 pp * qq * ecoll_400(ir,iq) 980 1025 ELSE 981 1026 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 982 y2 = ( 1.0 -qq ) * ecoll_100(1,iq-1) + qq * ecoll_100(1,iq)983 y3 = ( 1.0 -qq ) * ecoll_400(1,iq-1) + qq * ecoll_400(1,iq)1027 y2 = ( 1.0_wp - qq ) * ecoll_100(1,iq-1) + qq * ecoll_100(1,iq) 1028 y3 = ( 1.0_wp - qq ) * ecoll_400(1,iq-1) + qq * ecoll_400(1,iq) 984 1029 ENDIF 985 1030 ELSE 986 1031 qq = ( rq - rat(iq-1) ) / ( rat(iq) - rat(iq-1) ) 987 y2 = ( 1.0 -qq ) * ecoll_100(7,iq-1) + qq * ecoll_100(7,iq)988 y3 = ( 1.0 -qq ) * ecoll_400(7,iq-1) + qq * ecoll_400(7,iq)1032 y2 = ( 1.0_wp - qq ) * ecoll_100(7,iq-1) + qq * ecoll_100(7,iq) 1033 y3 = ( 1.0_wp - qq ) * ecoll_400(7,iq-1) + qq * ecoll_400(7,iq) 989 1034 ENDIF 990 1035 ! 991 1036 !-- Linear interpolation of dissipation rate in m**2/s**3 992 IF ( epsilon <= 0.01 ) THEN993 ecf(j,i) = ( epsilon - 0.01 ) / ( 0.0 - 0.01) * y1 &994 + ( epsilon - 0.0 ) / ( 0.01 - 0.0) * y2995 ELSEIF ( epsilon <= 0.06 ) THEN996 ecf(j,i) = ( epsilon - 0.04 ) / ( 0.01 - 0.04) * y2 &997 + ( epsilon - 0.01 ) / ( 0.04 - 0.01) * y31037 IF ( epsilon <= 0.01_wp ) THEN 1038 ecf(j,i) = ( epsilon - 0.01_wp ) / ( 0.0_wp - 0.01_wp ) * y1 & 1039 + ( epsilon - 0.0_wp ) / ( 0.01_wp - 0.0_wp ) * y2 1040 ELSEIF ( epsilon <= 0.06_wp ) THEN 1041 ecf(j,i) = ( epsilon - 0.04_wp ) / ( 0.01_wp - 0.04_wp ) * y2 & 1042 + ( epsilon - 0.01_wp ) / ( 0.04_wp - 0.01_wp ) * y3 998 1043 ELSE 999 ecf(j,i) = ( 0.06 - 0.04 ) / ( 0.01 - 0.04) * y2 &1000 + ( 0.06 - 0.01 ) / ( 0.04 - 0.01) * y31044 ecf(j,i) = ( 0.06_wp - 0.04_wp ) / ( 0.01_wp - 0.04_wp ) * y2 & 1045 + ( 0.06_wp - 0.01_wp ) / ( 0.04_wp - 0.01_wp ) * y3 1001 1046 ENDIF 1002 1047 1003 IF ( ecf(j,i) < 1.0 ) ecf(j,i) = 1.01048 IF ( ecf(j,i) < 1.0_wp ) ecf(j,i) = 1.0_wp 1004 1049 1005 1050 ecf(i,j) = ecf(j,i) … … 1041 1086 REAL(wp) :: y !: 1042 1087 1043 REAL(wp), DIMENSION(1:9), SAVE :: collected_r = 0.0 !:1088 REAL(wp), DIMENSION(1:9), SAVE :: collected_r = 0.0_wp !: 1044 1089 1045 REAL(wp), DIMENSION(1:19), SAVE :: collector_r = 0.0 !:1090 REAL(wp), DIMENSION(1:19), SAVE :: collector_r = 0.0_wp !: 1046 1091 1047 REAL(wp), DIMENSION(1:9,1:19), SAVE :: ef = 0.0 !:1092 REAL(wp), DIMENSION(1:9,1:19), SAVE :: ef = 0.0_wp !: 1048 1093 1049 1094 mean_rm = mean_r * 1.0E06_wp … … 1052 1097 IF ( first ) THEN 1053 1098 1054 collected_r = (/ 2.0, 3.0, 4.0, 6.0, 8.0, 10.0, 15.0, 20.0, 25.0 /) 1055 collector_r = (/ 10.0, 20.0, 30.0, 40.0, 50.0, 60.0, 80.0, 100.0, & 1056 150.0, 200.0, 300.0, 400.0, 500.0, 600.0, 1000.0, & 1057 1400.0, 1800.0, 2400.0, 3000.0 /) 1058 1059 ef(:,1) = (/0.017, 0.027, 0.037, 0.052, 0.052, 0.052, 0.052, 0.0, & 1060 0.0 /) 1061 ef(:,2) = (/0.001, 0.016, 0.027, 0.060, 0.12, 0.17, 0.17, 0.17, 0.0 /) 1062 ef(:,3) = (/0.001, 0.001, 0.02, 0.13, 0.28, 0.37, 0.54, 0.55, 0.47/) 1063 ef(:,4) = (/0.001, 0.001, 0.02, 0.23, 0.4, 0.55, 0.7, 0.75, 0.75/) 1064 ef(:,5) = (/0.01, 0.01, 0.03, 0.3, 0.4, 0.58, 0.73, 0.75, 0.79/) 1065 ef(:,6) = (/0.01, 0.01, 0.13, 0.38, 0.57, 0.68, 0.80, 0.86, 0.91/) 1066 ef(:,7) = (/0.01, 0.085, 0.23, 0.52, 0.68, 0.76, 0.86, 0.92, 0.95/) 1067 ef(:,8) = (/0.01, 0.14, 0.32, 0.60, 0.73, 0.81, 0.90, 0.94, 0.96/) 1068 ef(:,9) = (/0.025, 0.25, 0.43, 0.66, 0.78, 0.83, 0.92, 0.95, 0.96/) 1069 ef(:,10)= (/0.039, 0.3, 0.46, 0.69, 0.81, 0.87, 0.93, 0.95, 0.96/) 1070 ef(:,11)= (/0.095, 0.33, 0.51, 0.72, 0.82, 0.87, 0.93, 0.96, 0.97/) 1071 ef(:,12)= (/0.098, 0.36, 0.51, 0.73, 0.83, 0.88, 0.93, 0.96, 0.97/) 1072 ef(:,13)= (/0.1, 0.36, 0.52, 0.74, 0.83, 0.88, 0.93, 0.96, 0.97/) 1073 ef(:,14)= (/0.17, 0.4, 0.54, 0.72, 0.83, 0.88, 0.94, 0.98, 1.0 /) 1074 ef(:,15)= (/0.15, 0.37, 0.52, 0.74, 0.82, 0.88, 0.94, 0.98, 1.0 /) 1075 ef(:,16)= (/0.11, 0.34, 0.49, 0.71, 0.83, 0.88, 0.94, 0.95, 1.0 /) 1076 ef(:,17)= (/0.08, 0.29, 0.45, 0.68, 0.8, 0.86, 0.96, 0.94, 1.0 /) 1077 ef(:,18)= (/0.04, 0.22, 0.39, 0.62, 0.75, 0.83, 0.92, 0.96, 1.0 /) 1078 ef(:,19)= (/0.02, 0.16, 0.33, 0.55, 0.71, 0.81, 0.90, 0.94, 1.0 /) 1099 collected_r = (/ 2.0_wp, 3.0_wp, 4.0_wp, 6.0_wp, 8.0_wp, & 1100 10.0_wp, 15.0_wp, 20.0_wp, 25.0_wp /) 1101 collector_r = (/ 10.0_wp, 20.0_wp, 30.0_wp, 40.0_wp, 50.0_wp, & 1102 60.0_wp, 80.0_wp, 100.0_wp, 150.0_wp, 200.0_wp, & 1103 300.0_wp, 400.0_wp, 500.0_wp, 600.0_wp, 1000.0_wp, & 1104 1400.0_wp, 1800.0_wp, 2400.0_wp, 3000.0_wp /) 1105 1106 ef(:,1) = (/ 0.017_wp, 0.027_wp, 0.037_wp, 0.052_wp, 0.052_wp, & 1107 0.052_wp, 0.052_wp, 0.0_wp, 0.0_wp /) 1108 ef(:,2) = (/ 0.001_wp, 0.016_wp, 0.027_wp, 0.060_wp, 0.12_wp, & 1109 0.17_wp, 0.17_wp, 0.17_wp, 0.0_wp /) 1110 ef(:,3) = (/ 0.001_wp, 0.001_wp, 0.02_wp, 0.13_wp, 0.28_wp, & 1111 0.37_wp, 0.54_wp, 0.55_wp, 0.47_wp/) 1112 ef(:,4) = (/ 0.001_wp, 0.001_wp, 0.02_wp, 0.23_wp, 0.4_wp, & 1113 0.55_wp, 0.7_wp, 0.75_wp, 0.75_wp/) 1114 ef(:,5) = (/ 0.01_wp, 0.01_wp, 0.03_wp, 0.3_wp, 0.4_wp, & 1115 0.58_wp, 0.73_wp, 0.75_wp, 0.79_wp/) 1116 ef(:,6) = (/ 0.01_wp, 0.01_wp, 0.13_wp, 0.38_wp, 0.57_wp, & 1117 0.68_wp, 0.80_wp, 0.86_wp, 0.91_wp/) 1118 ef(:,7) = (/ 0.01_wp, 0.085_wp, 0.23_wp, 0.52_wp, 0.68_wp, & 1119 0.76_wp, 0.86_wp, 0.92_wp, 0.95_wp/) 1120 ef(:,8) = (/ 0.01_wp, 0.14_wp, 0.32_wp, 0.60_wp, 0.73_wp, & 1121 0.81_wp, 0.90_wp, 0.94_wp, 0.96_wp/) 1122 ef(:,9) = (/ 0.025_wp, 0.25_wp, 0.43_wp, 0.66_wp, 0.78_wp, & 1123 0.83_wp, 0.92_wp, 0.95_wp, 0.96_wp/) 1124 ef(:,10) = (/ 0.039_wp, 0.3_wp, 0.46_wp, 0.69_wp, 0.81_wp, & 1125 0.87_wp, 0.93_wp, 0.95_wp, 0.96_wp/) 1126 ef(:,11) = (/ 0.095_wp, 0.33_wp, 0.51_wp, 0.72_wp, 0.82_wp, & 1127 0.87_wp, 0.93_wp, 0.96_wp, 0.97_wp/) 1128 ef(:,12) = (/ 0.098_wp, 0.36_wp, 0.51_wp, 0.73_wp, 0.83_wp, & 1129 0.88_wp, 0.93_wp, 0.96_wp, 0.97_wp/) 1130 ef(:,13) = (/ 0.1_wp, 0.36_wp, 0.52_wp, 0.74_wp, 0.83_wp, & 1131 0.88_wp, 0.93_wp, 0.96_wp, 0.97_wp/) 1132 ef(:,14) = (/ 0.17_wp, 0.4_wp, 0.54_wp, 0.72_wp, 0.83_wp, & 1133 0.88_wp, 0.94_wp, 0.98_wp, 1.0_wp /) 1134 ef(:,15) = (/ 0.15_wp, 0.37_wp, 0.52_wp, 0.74_wp, 0.82_wp, & 1135 0.88_wp, 0.94_wp, 0.98_wp, 1.0_wp /) 1136 ef(:,16) = (/ 0.11_wp, 0.34_wp, 0.49_wp, 0.71_wp, 0.83_wp, & 1137 0.88_wp, 0.94_wp, 0.95_wp, 1.0_wp /) 1138 ef(:,17) = (/ 0.08_wp, 0.29_wp, 0.45_wp, 0.68_wp, 0.8_wp, & 1139 0.86_wp, 0.96_wp, 0.94_wp, 1.0_wp /) 1140 ef(:,18) = (/ 0.04_wp, 0.22_wp, 0.39_wp, 0.62_wp, 0.75_wp, & 1141 0.83_wp, 0.92_wp, 0.96_wp, 1.0_wp /) 1142 ef(:,19) = (/ 0.02_wp, 0.16_wp, 0.33_wp, 0.55_wp, 0.71_wp, & 1143 0.81_wp, 0.90_wp, 0.94_wp, 1.0_wp /) 1079 1144 1080 1145 ENDIF … … 1088 1153 ENDDO 1089 1154 1090 IF ( rm < 10.0 ) THEN1091 e = 0.0 1092 ELSEIF ( mean_rm < 2.0 ) THEN1093 e = 0.001 1094 ELSEIF ( mean_rm >= 25.0 ) THEN1095 IF( j <= 2 ) e = 0.0 1096 IF( j == 3 ) e = 0.47 1097 IF( j == 4 ) e = 0.8 1098 IF( j == 5 ) e = 0.9 1099 IF( j >=6 ) e = 1.0 1100 ELSEIF ( rm >= 3000.0 ) THEN1101 IF( i == 1 ) e = 0.02 1102 IF( i == 2 ) e = 0.16 1103 IF( i == 3 ) e = 0.33 1104 IF( i == 4 ) e = 0.55 1105 IF( i == 5 ) e = 0.71 1106 IF( i == 6 ) e = 0.81 1107 IF( i == 7 ) e = 0.90 1108 IF( i >= 8 ) e = 0.94 1155 IF ( rm < 10.0_wp ) THEN 1156 e = 0.0_wp 1157 ELSEIF ( mean_rm < 2.0_wp ) THEN 1158 e = 0.001_wp 1159 ELSEIF ( mean_rm >= 25.0_wp ) THEN 1160 IF( j <= 2 ) e = 0.0_wp 1161 IF( j == 3 ) e = 0.47_wp 1162 IF( j == 4 ) e = 0.8_wp 1163 IF( j == 5 ) e = 0.9_wp 1164 IF( j >=6 ) e = 1.0_wp 1165 ELSEIF ( rm >= 3000.0_wp ) THEN 1166 IF( i == 1 ) e = 0.02_wp 1167 IF( i == 2 ) e = 0.16_wp 1168 IF( i == 3 ) e = 0.33_wp 1169 IF( i == 4 ) e = 0.55_wp 1170 IF( i == 5 ) e = 0.71_wp 1171 IF( i == 6 ) e = 0.81_wp 1172 IF( i == 7 ) e = 0.90_wp 1173 IF( i >= 8 ) e = 0.94_wp 1109 1174 ELSE 1110 1175 x = mean_rm - collected_r(i) … … 1119 1184 1120 1185 e = ( (gg-aa)*ef(i,j) + (gg-bb)*ef(i+1,j) + (gg-cc)*ef(i,j+1) + & 1121 (gg-dd)*ef(i+1,j+1) ) / (3.0 *gg)1186 (gg-dd)*ef(i+1,j+1) ) / (3.0_wp * gg) 1122 1187 ENDIF 1123 1188
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