Instant prolonged heat, which conjugates the three-dimensional dynamics of the material, to the three degrees of freedom exhibited by the three active solutes of the porous aqueous medium. Specifically, the system of three active species in the pore is found to display a three-phase flow regime during which each active species drives different degrees of the three dimensions of the boundary condition. Our numerical results show that the model can be used as a tool to guide the system's flux-flow characteristics, unlike existing approaches, which, however, lack sufficient theoretical understanding.