[en] Paper deals with the results of the experimental study of the heat exchange of a lead coolant within the circulation circuit annular gaps under the supervised and the controllable processes of the mass transfer of the oxygen impurity. The studies were performed in a circulation circuit of a lead coolant under 450-550 deg C, at 0.1-1.5 m/s mean speed, 500-6000 Peclet number and 50-160 kW/m² thermal flow. The oxygen content in the lead varied from 10^-5-10⁰ thermodynamic activity value up to the saturation and higher with deposits of lead oxide on a heat-exchange surface. The processes within a non-isothermal liquid-metal circuit with the heated (reactor core) and the cooled (steam generator) sections were simulated on the basis of the dependences of the heat exchange characteristics within the circuit on the mass transfer of the impurities