Enhancement of nucleate pool boiling heat transfer to dilute binary mixtures using endothermic chemical reactions around the smoothed horizontal cylinder

“…The interesting point of this study is related to this fact that during the fouling formation on the surface, the heat transfer coefficient does not change over the time, which means that the iron oxide fouling has no significant impact on the boiling thermal performance of nano-fluid. All the findings in this work are in a good a good agreement with those of obtained in previous publications [27][28][29][30][31][32][33][34][35][36][37][38][39][40][41][42] and this work is regarded as a confirmation for our previous works. …”

Thermal behavior of aqueous iron oxide nano-fluid as a coolant on a flat disc heater under the pool boiling condition

“…The interesting point of this study is related to this fact that during the fouling formation on the surface, the heat transfer coefficient does not change over the time, which means that the iron oxide fouling has no significant impact on the boiling thermal performance of nano-fluid. All the findings in this work are in a good a good agreement with those of obtained in previous publications [27][28][29][30][31][32][33][34][35][36][37][38][39][40][41][42] and this work is regarded as a confirmation for our previous works. …”

Thermal behavior of aqueous iron oxide nano-fluid as a coolant on a flat disc heater under the pool boiling condition

“…Therefore, zirconia/water nanofluid offers better thermal properties than water. This is conjunction with the previous studies conducted on nanofluids and particulate fluids [69][70][71][72][73][74][75][76][77][78]. Figure 8a-c shows the variation of the thermo-physical properties of the nanofluid with temperature within the range of 40-60 °C.…”

Thermal performance of a micro heat exchanger (MHE) working with zirconia-based nanofluids for industrial cooling

“…In this regard, Peyghambarzadeh et al [15] categorized almost all of the correlations for the prediction of pool boiling heat transfer coefficient of binary mixtures and demonstrated that Schlünder [5] correlation in comparison with other existing correlations predicts the heat transfer coefficient more accurately. Sarafraz et al [16] performed an experimental study to measure the pool boiling heat transfer coefficient of binary dilute mixtures of water/glycerol, water/MEG (mono-ethylene glycol) and water/ DEG (di-ethylene glycol) around the horizontal cylinder. Some particular endothermic chemical reactions related to ammonium salts were used to enhance the pool boiling heat transfer coefficient.…”

Influence of thermodynamic models on the prediction of pool boiling heat transfer coefficient of dilute binary mixtures