timour_matlab/mscripts/DIAG3.m

% Enstrophy 'DIAG3'
sumM=zeros(Nx,Ny);
sumD=zeros(Nx,Ny);
sumW=zeros(Nx,Ny);

dz=0.005;

% DEFINE BOX OF INTEGRATION
Nx1=140;
Nx2=Nx-4;
Ny1=5;
Ny2=Ny-4;
Nz1=3;
Nz2=Nz/2-2;

pv1=pv;
Mp1=Mp;
Dp1=Dp;

%  pv1=smooth3(pv);
%  Mp1=smooth3(Mp);
%  Dp1=smooth3(Dp);

%  for kk=1:4
%  pv=smooth3(pv);
%  Mp=smooth3(Mp);
%  Dp=smooth3(Dp);
%  end

 for k=Nz1:Nz2
 sumM(3:Nx-2,3:Ny-2)=sumM(3:Nx-2,3:Ny-2)+Mp1(3:Nx-2,3:Ny-2,k).*pv1(3:Nx-2,3:Ny-2,k)*dz;
 sumD(3:Nx-2,3:Ny-2)=sumD(3:Nx-2,3:Ny-2)+Dp1(3:Nx-2,3:Ny-2,k).*pv1(3:Nx-2,3:Ny-2,k)*dz;
 end
 sumW(3:Nx-2,3:Ny-2)=0.5*meanw(3:Nx-2,3:Ny-2,Nz1).*pv1(3:Nx-2,3:Ny-2,Nz1).*pv1(3:Nx-2,3:Ny-2,Nz1);

for k=1:3
sumM1(:,:,k)=sumM(:,:);
sumD1(:,:,k)=sumD(:,:);
sumW1(:,:,k)=sumW(:,:);
end

for k=1:25

sumM1=smooth3(sumM1);
sumD1=smooth3(sumD1);
sumW1=smooth3(sumW1);
end

V=[0.25*min(min(sumW(Nx1+2:Nx2,Ny1:Ny2-4))) 0];

%       title='Vorticity input';
%        imagesc(lat,long,sumW(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
%        set(gca,'ydir','norm')
%        text(0,110,title);
%figure
v=zeros(10,1);
v1=zeros(10,1);
for i=1:10
%v(i)=-0.1*(i-0.5)*7;
%v1(i)=0.1*(i-0.5)*7;
v(i)=-0.1*(i)*7;
v1(i)=0.1*(i)*7;
end

% contour(squeeze(sumW1(Nx1:Nx2,Ny1:Ny2,1))',v)
% hold on
% contour(squeeze(sumW1(Nx1:Nx2,Ny1:Ny2,1))',v1,'--')
% hold off 
%        text(20,0,'countour interval is 0.7 in the non-dimensional units');
%        text(20,95,'Vorticity input','Fontsize',16);

%figure

%V=[-0.5*max(max(abs(sumD(Nx1:Nx2,Ny1:Ny2-4)))) 0.5*max(max(abs(sumD(Nx1:Nx2,Ny1:Ny2-4))))];
%       title='Buoyancy diffusion integral';
%        imagesc(lat,long,sumD(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
%        set(gca,'ydir','norm')
%        text(0,110,title);


% figure

subplot(2,1,1)
        contour(squeeze(sumD1(Nx1:Nx2,Ny1:Ny2,1))',50)
        text(10,Ny2,'Buoyancy diffusion integral','Fontsize',15);
hold off
 xlabel('X (gridpoints)')
 ylabel('Y (gridpoints)')
 set(gca,'DataAspectRatio',[2,2,2])

%figure
%V=[-0.5*max(max(abs(sumM(Nx1:Nx2,Ny1:Ny2-4)))) 0.5*max(max(abs(sumM(Nx1:Nx2,Ny1:Ny2-4))))];
%       title='Momentum diffusion integral';
%        imagesc(lat,long,sumM(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
%        set(gca,'ydir','norm')
%        text(0,110,title);

subplot(2,1,2)
        contour(squeeze(sumM1(Nx1:Nx2,Ny1:Ny2,1))',50)

 set(gca,'DataAspectRatio',[1,1,1])
        text(10,Ny2,'Momentum diffusion integral','Fontsize',15);
 xlabel('X (gridpoints)')
 ylabel('Y (gridpoints)')
        text(40,-25,'countour interval - 0.7 (non-dimensional units)','FontSize',7);
        text(40,-30,'negative values - solid line','FontSize',7);
        text(40,-35,'positive values - dashed line','FontSize',7);


%-----TEST-------------------------------------------------

sum=0;
sumT=0;
sumY=0;
for i=Nx1:Nx2
for j=Ny1:Ny2
sum=sum+0.5*meanw(i,j,Nz1)*pv(i,j,Nz1)*pv(i,j,Nz1)*dx*dy;
sumT=sum-0.5*meanw(i,j,Nz2)*pv(i,j,Nz2)*pv(i,j,Nz2)*dx*dy;
end
end

for j=Ny1:Ny2
for k=Nz1:Nz2
 sumT=sumT+0.5*meanu(Nx2,j,k)*pv(Nx2,j,k)*pv(Nx2,j,k)*dz*dy;
 sumT=sumT-0.5*meanu(Nx1,j,k)*pv(Nx1,j,k)*pv(Nx1,j,k)*dz*dy;
end
end

for i=Nx1:Nx2
for k=Nz1:Nz2
sumT=sumT+0.5*meanv(i,Ny2,k)*pv(i,Ny2,k)*pv(i,Ny2,k)*dz*dx;
sumY=sumY+0.5*meanv(i,Ny2,k)*pv(i,Ny2,k)*pv(i,Ny2,k)*dz*dx;
sumT=sumT-0.5*meanv(i,Ny1,k)*pv(i,Ny1,k)*pv(i,Ny1,k)*dz*dx;
end
end
'VORTICITY GENERATION'
sum
sumY
sumT


sum=0;
for i=Nx1:Nx2
for j=Ny1:Ny2
sum=sum+sumD(i,j)*dx*dy;
end
end
'DISSIPATION BY EDDY-DIFFUSIVITY'
sum

sum=0;
for i=Nx1:Nx2
for j=Ny1:Ny2
sum=sum+sumM(i,j)*dx*dy;
end
end
'DISSIPATION BY EDDY-VISCOSITY'
sum
1	% Enstrophy 'DIAG3'
2	sumM=zeros(Nx,Ny);
3	sumD=zeros(Nx,Ny);
4	sumW=zeros(Nx,Ny);
5
6	dz=0.005;
7
8	% DEFINE BOX OF INTEGRATION
9	Nx1=140;
10	Nx2=Nx-4;
11	Ny1=5;
12	Ny2=Ny-4;
13	Nz1=3;
14	Nz2=Nz/2-2;
15
16	pv1=pv;
17	Mp1=Mp;
18	Dp1=Dp;
19
20	% pv1=smooth3(pv);
21	% Mp1=smooth3(Mp);
22	% Dp1=smooth3(Dp);
23
24	% for kk=1:4
25	% pv=smooth3(pv);
26	% Mp=smooth3(Mp);
27	% Dp=smooth3(Dp);
28	% end
29
30	for k=Nz1:Nz2
31	sumM(3:Nx-2,3:Ny-2)=sumM(3:Nx-2,3:Ny-2)+Mp1(3:Nx-2,3:Ny-2,k).pv1(3:Nx-2,3:Ny-2,k)dz;
32	sumD(3:Nx-2,3:Ny-2)=sumD(3:Nx-2,3:Ny-2)+Dp1(3:Nx-2,3:Ny-2,k).pv1(3:Nx-2,3:Ny-2,k)dz;
33	end
34	sumW(3:Nx-2,3:Ny-2)=0.5meanw(3:Nx-2,3:Ny-2,Nz1).pv1(3:Nx-2,3:Ny-2,Nz1).*pv1(3:Nx-2,3:Ny-2,Nz1);
35
36	for k=1:3
37	sumM1(:,:,k)=sumM(:,:);
38	sumD1(:,:,k)=sumD(:,:);
39	sumW1(:,:,k)=sumW(:,:);
40	end
41
42	for k=1:25
43
44	sumM1=smooth3(sumM1);
45	sumD1=smooth3(sumD1);
46	sumW1=smooth3(sumW1);
47	end
48
49	V=[0.25*min(min(sumW(Nx1+2:Nx2,Ny1:Ny2-4))) 0];
50
51	% title='Vorticity input';
52	% imagesc(lat,long,sumW(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
53	% set(gca,'ydir','norm')
54	% text(0,110,title);
55	%figure
56	v=zeros(10,1);
57	v1=zeros(10,1);
58	for i=1:10
59	%v(i)=-0.1(i-0.5)7;
60	%v1(i)=0.1(i-0.5)7;
61	v(i)=-0.1(i)7;
62	v1(i)=0.1(i)7;
63	end
64
65	% contour(squeeze(sumW1(Nx1:Nx2,Ny1:Ny2,1))',v)
66	% hold on
67	% contour(squeeze(sumW1(Nx1:Nx2,Ny1:Ny2,1))',v1,'--')
68	% hold off
69	% text(20,0,'countour interval is 0.7 in the non-dimensional units');
70	% text(20,95,'Vorticity input','Fontsize',16);
71
72	%figure
73
74	%V=[-0.5max(max(abs(sumD(Nx1:Nx2,Ny1:Ny2-4)))) 0.5max(max(abs(sumD(Nx1:Nx2,Ny1:Ny2-4))))];
75	% title='Buoyancy diffusion integral';
76	% imagesc(lat,long,sumD(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
77	% set(gca,'ydir','norm')
78	% text(0,110,title);
79
80
81	% figure
82
83	subplot(2,1,1)
84	contour(squeeze(sumD1(Nx1:Nx2,Ny1:Ny2,1))',50)
85	text(10,Ny2,'Buoyancy diffusion integral','Fontsize',15);
86	hold off
87	xlabel('X (gridpoints)')
88	ylabel('Y (gridpoints)')
89	set(gca,'DataAspectRatio',[2,2,2])
90
91	%figure
92	%V=[-0.5max(max(abs(sumM(Nx1:Nx2,Ny1:Ny2-4)))) 0.5max(max(abs(sumM(Nx1:Nx2,Ny1:Ny2-4))))];
93	% title='Momentum diffusion integral';
94	% imagesc(lat,long,sumM(Nx1:Nx2,Ny1:Ny2)');shading flat;caxis(V);axis image;colorbar('vertical');
95	% set(gca,'ydir','norm')
96	% text(0,110,title);
97
98	subplot(2,1,2)
99	contour(squeeze(sumM1(Nx1:Nx2,Ny1:Ny2,1))',50)
100
101	set(gca,'DataAspectRatio',[1,1,1])
102	text(10,Ny2,'Momentum diffusion integral','Fontsize',15);
103	xlabel('X (gridpoints)')
104	ylabel('Y (gridpoints)')
105	text(40,-25,'countour interval - 0.7 (non-dimensional units)','FontSize',7);
106	text(40,-30,'negative values - solid line','FontSize',7);
107	text(40,-35,'positive values - dashed line','FontSize',7);
108
109
110
111	%-----TEST-------------------------------------------------
112
113	sum=0;
114	sumT=0;
115	sumY=0;
116	for i=Nx1:Nx2
117	for j=Ny1:Ny2
118	sum=sum+0.5meanw(i,j,Nz1)pv(i,j,Nz1)pv(i,j,Nz1)dx*dy;
119	sumT=sum-0.5meanw(i,j,Nz2)pv(i,j,Nz2)pv(i,j,Nz2)dx*dy;
120	end
121	end
122
123	for j=Ny1:Ny2
124	for k=Nz1:Nz2
125	sumT=sumT+0.5meanu(Nx2,j,k)pv(Nx2,j,k)pv(Nx2,j,k)dz*dy;
126	sumT=sumT-0.5meanu(Nx1,j,k)pv(Nx1,j,k)pv(Nx1,j,k)dz*dy;
127	end
128	end
129
130	for i=Nx1:Nx2
131	for k=Nz1:Nz2
132	sumT=sumT+0.5meanv(i,Ny2,k)pv(i,Ny2,k)pv(i,Ny2,k)dz*dx;
133	sumY=sumY+0.5meanv(i,Ny2,k)pv(i,Ny2,k)pv(i,Ny2,k)dz*dx;
134	sumT=sumT-0.5meanv(i,Ny1,k)pv(i,Ny1,k)pv(i,Ny1,k)dz*dx;
135	end
136	end
137	'VORTICITY GENERATION'
138	sum
139	sumY
140	sumT
141
142
143	sum=0;
144	for i=Nx1:Nx2
145	for j=Ny1:Ny2
146	sum=sum+sumD(i,j)dxdy;
147	end
148	end
149	'DISSIPATION BY EDDY-DIFFUSIVITY'
150	sum
151
152	sum=0;
153	for i=Nx1:Nx2
154	for j=Ny1:Ny2
155	sum=sum+sumM(i,j)dxdy;
156	end
157	end
158	'DISSIPATION BY EDDY-VISCOSITY'
159	sum