Pool boiling study on candidature of pentane, methanol and water for near room temperature cooling

“…Fig. 10 compares the predicted CHF using the lift-off model with methanol CHF data collected by Lienhard et al [27] and Bailey et al [25], Freon-113 CHF data collected by Sterman and Korychanek [29], Abuaf and Staub [30], and Samokhin and Yagov [26] and Benzene CHF data collected by Sterman and Korychanek [29]. At both low and moderate pressure the agreement is generally quite good.…”

“…Fig. 9 compares the predicted CHF based on the lift-off model with water data published by Lienhard et al [27], Yagov [28], Bailey et al [25], and Sakashita and Ono [9]. While the predicted trend with increasing pressure is good, the CHF is under-predicted.…”

“…Bailey et al [25] tested CHF for boiling of pentane on a nickel coated copper heater over a range of pressure. In Fig.…”

A new mechanistic model for pool boiling CHF on horizontal surfaces

“…Fig. 10 compares the predicted CHF using the lift-off model with methanol CHF data collected by Lienhard et al [27] and Bailey et al [25], Freon-113 CHF data collected by Sterman and Korychanek [29], Abuaf and Staub [30], and Samokhin and Yagov [26] and Benzene CHF data collected by Sterman and Korychanek [29]. At both low and moderate pressure the agreement is generally quite good.…”

“…Fig. 9 compares the predicted CHF based on the lift-off model with water data published by Lienhard et al [27], Yagov [28], Bailey et al [25], and Sakashita and Ono [9]. While the predicted trend with increasing pressure is good, the CHF is under-predicted.…”

“…Bailey et al [25] tested CHF for boiling of pentane on a nickel coated copper heater over a range of pressure. In Fig.…”

A new mechanistic model for pool boiling CHF on horizontal surfaces

“…In [24][25][26][27][28][29], dependencies were obtained by definition of the stability criterion K .…”

“…theoretical contributions of the occurrence of a "flooding" regime in a thermosyphon [12] 11571.9 [13] 12589.6 [14] 13110.1 [15] 11638.1 mutual influence of gravitational forces and surface tension [16] 3915.8 [17] 605.2 [18] 134.9 S.S. Kutateladze hydrodynamic theory of the heat transfer crisis during boiling [20] 1355.8 [21] 1016.9 [22] 1101.6 [23] 1186.3 [24] 1109.0 [25] 1264.0 [26] 1440.3 [27] 1207.8 [28] 1229.1 [29] 1105.3…”

Critical heat flux density in diphasic thermosyphons

Experimental Study of Pool Boiling Critical Heat Flux on Thin Wires under Various Gravities