@incollection{, FA84F1A0913884BA155C50D2D8A2EC67 , author={{AboubacarineMaïga} and {ENETP}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}2233345 } @incollection{b0, , title={{Theoretical Comparative Energy Efficiency Analysis of Dual Axis Solar Tracking Systems}} , author={{ AMaiga }} , journal={{Energy and Power Engineering}} 13 , year={2021} } @book{b1, , title={{World estimates of PV Optimal Tilt Angles and Ratios of Sunlight Incident Upon Tilted and Tracked PV Panels Relative to Horizontal Panels}} , author={{ MarcZJacobson } and { VijaysinhJadhay }} } @book{b2, , title={{}} , author={{ ???? ???? (?? } and { ???? } and { ???? } and { ???? ) = ?? ???? (?? } and { ???? }} } @book{b3, , title={{}} , author={{ ???? ???? (?? } and { ?? } and { ???? } and { ?? }} } @book{b4, , title={{C1(k,n,i,j)=(sin(delta_rad(n)))*((cosd(beta(j)))}} } @book{b5, , title={{}} , author={{ *(sind }} } @book{b6, , title={{*(cosd(phi(i)))*(cosd(lamda(k))))}} } @book{b7, , title={{C2(k,n,i,j)=(cos(delta_rad(n)))*((cosd(beta(j)))*(cosd(phi(i)))+(sind(beta(j)))*(sind(phi(i)}} } @book{b8, , title={{*(cosd(lamda(k))))}} } @book{b9, , title={{C3(k,n,i,j)=(sind(beta(j)))*(cos(delta_rad(n)))}} } @book{b10, , title={{}} , author={{ *(sind }} } @book{b11, , title={{=(1/2)*(cosd(phi(i))*tan(delta_rad(n))+sind(phi(i)))}} } @book{b12, , title={{(cotd(lamda(k))^2)+(sind(phi(i))^2)-(cosd(phi(i))^2)*(tan(delta_rad(n))^2))-cotd(lamda(k)))/(2*a}} , editor={g(k,n,i,j)=(24/pi)*atan((sqrt(} } @book{b13, , title={{(cotd(lamda(k))^2)+(sind(phi(i))^2)-(cosd(phi(i))^2)*(tan(delta_rad(n))^2))+cotd(lamda(k)))/(2*a}} , editor={h(k,n,i,j)=(24/pi)*atan((-sqrt(} } @book{b14, , title={{S11(k,n,i,j)=C1(k,n,i,j)*(g(k,n,i,j)+T0(n,i))}} } @book{b15, , title={{S12(k,n,i,j)=(12*C2(k,n,i,j)/pi)*(sin(pi*g(k,n ,i,j)/12)+sin(pi*T0}} } @book{b16, , title={{S13(k,n,i,j)=(-12*C3(k,n,i,j)/pi)*(cos(pi*g(k,n,i,j)/12)-cos}} , note={pi*T0(n,i)/12)} } @book{b17, , title={{S22(k,n,i,j)=(12*C2(k,n,i,j)/pi)*(sin(pi*h(k,n,i,j)/12)-sin}} , note={pi*g(k,n,i,j)/12)} } @book{b18, , title={{S23(k,n,i,j)=(-12*C3(k,n,i,j)/pi)*(cos(pi*h(k,n,i,j)/12)-cos}} , note={pi*g(k,n,i,j)/12)} } @book{b19, , title={{S32(k,n,i,j)=(12*C2(k,n,i,j)/pi)*(sin(pi*T0(n,i)/12)-sin(pi*h(k}} } @book{b20, , title={{S33(k,n,i,j)=(-12*C3(k,n,i,j)/pi)*(cos(pi*T0(n,i)/12)-cos(pi*h(k}} } @book{b21, , title={{S1(k,n,i,j)=abs(S11(k,n,i,j)+S12(k,n,i,j)+S13(k,n,i,j))}} } @book{b22, , title={{S2(k,n,i,j)=abs(S21(k,n,i,j)+S22(k,n,i,j)+S23(k,n,i,j))}} } @book{b23, , title={{S3(k,n,i,j)=abs(S31(k,n,i,j)+S32(k,n,i,j)+S33(k,n,i,j))}} } @book{b24, , title={{min_eta_Dual_Static(i,j)=min(eta_Dual_Static(k,:,i,j))}} } @book{b25, , title={{,i)=sind(delta_deg(n))*sind(phi(i)}} } @book{b26, , title={{,i)=cosd(delta_deg(n))*cosd(phi(i)}} } @book{b27, , title={{,i)=cos(pi*T0}} 12 } @book{b28, , title={{Elements% V11(n,i,j)=(12*sind(beta(j))/pi)*X1(n,i)*(1-c}} , author={{ VMatrix }} } @book{b29, , title={{V12(n,i,j)=(12*sind(beta(j))/pi)*(X2(n,i)/2)*(1-(c(n,i)^2))}} } @book{b30, , title={{V13(n,i,j)=(12/pi)*sind(beta(j))*(X3(n,i)/3)*(1-(c(n,i)^3))}} } @book{b31, , title={{V21(n,i,j)=(12*sind(beta(j))/pi)*(X4(n,i)/4)*(1-(c(n,i)^4))}} } @book{b32, , title={{V22(n,i,j)=a(n,i)*cosd(beta(j))*T0(n,i)}} } @book{b33, , title={{V23(n,i,j)=(12*b(n,i)*cosd(beta(j))/pi)*sin(pi*T0}} 12 } @book{b34, , title={{}} , author={{ K_DvFactor } and { %Efficiency }} } @book{b35, , title={{K_DV(n,i,j)=T0(n,i)/abs(V11(n,i,j)+V12(n,i,j)+V13(n,i,j)+V21(n,i,j)+V22(n,i,j)+V23(n}} , address={i,j)} } @book{b36, , title={{min_eta_DV(i,j)=min(eta_DV(:,i,j))}} } @book{b37, , title={{,i)=asin(sin(delta_rad(n))*sind(phi(i))+cosd(delta_deg(n))*cosd}} } @book{b38, , title={{,i)=sind(delta_deg(n))*sind(phi(i)}} } @book{b39, , title={{,i)=cosd(delta_deg(n))*cosd(phi(i)}} } @book{b40, , title={{,i)=cos(pi*T0}} 12 } @book{b41, , title={{=(12/pi)*sind(lamda(k))*sin(delta_rad(n))*cosd(phi(i))}} } @book{b42, , title={{12/pi)*sind(lamda(k))*cos(delta_rad(n))*sind(phi(i)}} } @book{b43, , title={{p1(n,k,i,j)=-a(n,i)*sind(beta(j))*cosd(lamda(k))*sin(delta_rad(n))*cosd(phi(i))}} } @book{b44, , title={{-sind(beta(j))*cosd(lamda(k)))*(b(n,i)*sin(delta_rad(n))*cosd(phi(i))-a(n,i)*cos(delta_rad(n))*sind}} , editor={p2(n,k,i,j)=(} } @book{b45, , title={{k,i,j)=b(n,i)*sind(beta(j))*cosd(lamda(k))*cos(delta_rad(n))*sind(phi(i))}} , note={p3(n,} } @book{b46, , title={{q1(n,k,i,j)=a(n,i)*sind(beta(j))*sind(lamda(k))*cos}} , note={delta_rad(n)} } @book{b47, , title={{q2(n,k,i,j)=(b(n,i)/2)*sind(beta(j))*sind(lamda(k))*cos}} , note={delta_rad(n)} } @book{b48, , title={{% First line elements% H11(n,k,i,j)=-cosd(lamda(k))*((6*alpha_2(n,i)/(pi*cosd(phi(i))))+(6*(a(n,i)+b(n,i))*cos(alpha_2(n,i))/(pi* cosd}} , author={{ HMatrix }} } @book{b49, , title={{H12(n,k,i,j)=d(n,k,i)*(X1(n,i)*(1-c(n,i))+(X2(n,i)/2)*(1-(c(n,i)^2)))}} } @book{b50, , title={{}} , author={{ H13(n }} , note={n,k,i)*((X3(n,i)/3)*(1-(c(n,i)^3))+(X4(n,i)/4)*(1-(c(n,i)^4)))} } @book{b51, , title={{}} , author={{ H22(n,K,I,J)=e }} , note={n,k,i)*((X3(n,i)/4)*(1-(c(n,i)^4))+((X4(n,i)/5)*(1-(c(n,i)^5))))} } @book{b52, , title={{=(p1(n,k,i,j)+(p3(n,k,i,j)/2))*T0(n,i)+((3*p3(n,k,i,j)/pi)*sin(pi*T0(n,i)/6))+(( 12*p2(n,k,i,j)/pi)*sin}} , author={{ H23(n }} , note={pi*T0(n,i)/12)} } @book{b53, , title={{% Third line elements% H31(n,k,i,j)=}} } @book{b54, , title={{*q2(n,k,i,j)+12*q1(n,k,i,j))/pi)+((12*q1(n,k,i,j)/pi)*cos(pi*T0(n,i)/12))+((6*q2(n,k,i,j) /pi)*cos}} pi*T0 } @book{b55, , title={{(b(n,i)^2)/2))*T0(n,i)+((24*a(n,i)*b(n,i)/pi)*sin( pi*T0(n,i)/12))+((3*(b(n,i)^2)/pi)*sin}} , editor={H32(n,k,i,j)=cosd(lamda(k))*(((a(n,i)^2)+(} , note={pi*T0(n,i)/6)))} } @book{b56, , title={{H33(n,k,i,j)=d(n,k,i)*(X5(n,i)/5)*(1-(c(n,i)^5))+e}} , note={n,k,i)*(X5(n,i)/6)*(1-(c(n,i)^6)} } @book{b57, , title={{}} , author={{ K_DhFactor } and { %Efficiency }} } @book{b58, , title={{H11(n,k,i,j)+H12(n,k,i,j)+H13(n,k,i,j)+H21(n,k,i,j)+H22(n,k,i,j)+ H23(n,k,i,j)+H31(n,k,i,j)+H32(n,k,i,j)+H33(n,k}} , editor={K_DH(n,k,i,j)=T0(n,i)/(abs} } @book{b59, , title={{min_eta_Dual_Hor(i,j)=min(eta_Dual_Hor(:,k,i,j))}} }