This paper presents an experimental setup along with experimental data for critical heat flux. The hydraulic loop of the experimental setup allows it to maintain stable flow parameters at the inlet of the test section at pressures up to 2.7 MPa and temperatures up to 200 degrees C. Experiments on hydrodynamics and heat transfer were performed for R113 and RC318 in two vertical channels with diameters of 1.36 and 0.95 mm and lengths of 200 and 100 mm, respectively. The inlet pressure-to-critical pressure ratio (reduced pressure) was p(r) = p/p(cr) = 0.15-0.9, the mass flux was between 700 and 4800 kg/(m(2) s), and the inlet temperature varied from 30 to 180 degrees C. The primary regimes were obtained for conditions ranging from highly subcooled flows to saturated flows. For each regime with fixed parameters, the maximum possible heating power value was applied, with the maximum value limited by the maximum output of the power supply, the onset of dryout, or wall temperatures exceeding 350 degrees C. The influences of flow conditions (i.e., mass flow rate, pressure, inlet temperature, and channel diameter) on the critical heat flux and a comparative analysis of different methods of data generalization are presented. (C) 2018 Elsevier Ltd. All rights reserved.