Thermal propagation of MHD oscillatory flow of optically thin fluid in a vertical double-passage with varying temperature was investigated. The thermal distribution of the fluid flow is enhanced through a perfectly thin conductive baffle, which divides the channel  into two passages. The equations governing the fluid flow are formulated based on purely oscillatory flow with pressure gradient. The  flow velocity and thermal equations governing the flow are analytically solved. The closed-form results gotten were analysed for the  influences of Reynolds number, magnetic term, thermal convection term, Peclet number and frequency of oscillation on the flow and  heat transfer characteristics with the aid of graphs. It was observed that magnetic parameter reduces the flow rate in the channel.