1 | ! SPDX-FileCopyrightText: FLEXPART 1998-2019, see flexpart_license.txt |
---|
2 | ! SPDX-License-Identifier: GPL-3.0-or-later |
---|
3 | |
---|
4 | real function zenithangle(ylat,xlon,jul) |
---|
5 | |
---|
6 | !********************************************************************* |
---|
7 | ! * |
---|
8 | ! Author: G. WOTAWA * |
---|
9 | ! Date: 1993-11-17 * |
---|
10 | ! Project: POP-M * |
---|
11 | ! Last update: * |
---|
12 | ! * |
---|
13 | !********************************************************************* |
---|
14 | ! * |
---|
15 | ! DESCRIPTION: This function returns the sinus of solar * |
---|
16 | ! elevation as a function of geographic longitude, * |
---|
17 | ! latitude and GMT-Time. * |
---|
18 | ! * |
---|
19 | !********************************************************************* |
---|
20 | ! * |
---|
21 | ! INPUT: * |
---|
22 | ! * |
---|
23 | ! ylat geographical latitude [DEG] * |
---|
24 | ! xlon geographical longitude [DEG] * |
---|
25 | ! jjjj Year * |
---|
26 | ! mm Month * |
---|
27 | ! dd Day * |
---|
28 | ! hh Hour * |
---|
29 | ! minute Minute * |
---|
30 | ! * |
---|
31 | !********************************************************************* |
---|
32 | |
---|
33 | use par_mod, only: dp |
---|
34 | |
---|
35 | implicit none |
---|
36 | |
---|
37 | integer :: jjjj,mm,id,iu,minute,yyyymmdd,hhmmss |
---|
38 | integer :: ndaynum |
---|
39 | real :: sinsol,solelev,ylat,xlon |
---|
40 | real :: rnum,rylat,ttime,dekl,rdekl,eq |
---|
41 | real,parameter :: pi=3.1415927 |
---|
42 | real(kind=dp) :: jul |
---|
43 | |
---|
44 | call caldate(jul,yyyymmdd,hhmmss) |
---|
45 | jjjj=yyyymmdd/10000 |
---|
46 | mm=yyyymmdd/100-jjjj*100 |
---|
47 | id=yyyymmdd-jjjj*10000-mm*100 |
---|
48 | iu=hhmmss/10000 |
---|
49 | minute=hhmmss/100-100*iu |
---|
50 | |
---|
51 | ndaynum=31*(mm-1)+id |
---|
52 | if(mm.gt.2) ndaynum=ndaynum-int(0.4*mm+2.3) |
---|
53 | if((mm.gt.2).and.(jjjj/4*4.eq.jjjj)) ndaynum=ndaynum+1 |
---|
54 | |
---|
55 | rnum=2.*pi*ndaynum/365. |
---|
56 | rylat=pi*ylat/180. |
---|
57 | ttime=real(iu)+real(minute)/60. |
---|
58 | |
---|
59 | dekl=0.396+3.631*sin(rnum)+0.038*sin(2.*rnum)+0.077*sin(3.*rnum)- & |
---|
60 | 22.97*cos(rnum)-0.389*cos(2.*rnum)-0.158*cos(3.*rnum) |
---|
61 | rdekl=pi*dekl/180. |
---|
62 | |
---|
63 | eq=(0.003-7.343*sin(rnum)-9.47*sin(2.*rnum)- & |
---|
64 | 0.329*sin(3.*rnum)-0.196*sin(4.*rnum)+ & |
---|
65 | 0.552*cos(rnum)-3.020*cos(2.*rnum)- & |
---|
66 | 0.076*cos(3.*rnum)-0.125*cos(4.*rnum))/60. |
---|
67 | |
---|
68 | sinsol=sin(rylat)*sin(rdekl)+cos(rylat)*cos(rdekl)* & |
---|
69 | cos((ttime-12.+xlon/15.+eq)*pi/12.) |
---|
70 | ! Calculate the maximum solar elevation on that day |
---|
71 | !sinsol=sin(rylat)*sin(rdekl)+cos(rylat)*cos(rdekl)* |
---|
72 | ! & cos((eq)*pi/12.) |
---|
73 | solelev=asin(sinsol)*180./pi |
---|
74 | zenithangle=90.-solelev |
---|
75 | |
---|
76 | return |
---|
77 | end function zenithangle |
---|