In solving the coupled vapor and liquid unidirectional flows Gotu Kola in micro heat pipes, we discovered numerically an integral identity.After asymptotic and polynomial expansions, the coupled flows yield two reciprocal systems of equations.In system A, a vapor velocity UA obeys the Poisson equation and drives, through an interfacial boundary condition, a liquid velocity WA that satisfies the Laplace equation.In reciprocal system B, a liquid velocity WB obeys the Poisson equation and drives, through another interfacial boundary condition, a 2 Piece Sectional vapor velocity UB that satisfies the Laplace equation.We found that the vapor volume flow rate of UB is numerically equal to the liquid volume flow rate of WA for seven different pipe shapes.
Here, a general proof is presented for the integral identity, and some interesting implications of this identity are discussed.