Fig. 1 The domains with uniform points: ( a ) Ω 1 and ( b ) Ω 2 More about this image found in The domains with uniform points: ( a ) Ω 1 and ( b ) ...

Fig. 2 SPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of τ q : ( a ) τ q = 0   s , ( b ) τ q = 14   s , ( c ) τ q = 20   s , ( d ) τ q = 28   s ... More about this image found in SPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 3 DPL model—temperature distribution profiles in domains Ω 1 and Ω 2 at τ T = 20   s for different values of τ q : ( a ) τ q = 0   s , ( b ) τ q = 14   s , ( c ) τ q = 20   s ,... More about this image found in DPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 4 DPL model—temperature distribution profiles in domains Ω 1 and Ω 2 at τ q = 28   s for different values of τ T : ( a ) τ T = 0   s , ( b ) τ T = 10   s , ( c ) τ T = 15   s ,... More about this image found in DPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 5 SPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of H 0 : ( a ) H 0 = 5500   A / m , ( b ) H 0 = 6800   A / m , ( c ) H 0 = 7500   A / m , ( d ) ... More about this image found in SPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 6 DPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of H 0 : ( a ) H 0 = 5500   A / m , ( b ) H 0 = 6800   A / m , ( c ) H 0 = 7500   A / m , ( d ) ... More about this image found in DPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 7 SPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of ϕ : ( a ) ϕ = 2   × 10 − 4 , ( b ) ϕ = 3   × 10 − 4 , ( c ) ϕ = 4   × 10 − 4 , ( d ) ϕ = 5... More about this image found in SPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 8 DPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of ϕ : ( a ) ϕ = 2   × 10 − 4 , ( b ) ϕ = 3   × 10 − 4 , ( c ) ϕ = 4   × 10 − 4 , ( d ) ϕ = 5... More about this image found in DPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 9 SPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of f : ( a ) f  =   200, ( b ) f  =   250, ( c ) f  =   300, ( d ) f  =   350, ( e ) f  =   200, ( f ) f  =   250, ( g ) f  =   300, and ( h ) f  =   350 More about this image found in SPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 10 DPL model—temperature distribution profiles in domains Ω 1 and Ω 2 for different values of f : ( a ) f  =   200, ( b ) f  =   250, ( c ) f  =   300, ( d ) f  =   350, ( e ) f  =   200, ( f ) f  =   250, ( g ) f  =   300, and ( h ) f  =   350 More about this image found in DPL model—temperature distribution profiles in domains Ω 1 ...

Fig. 1 Typical boiling curve More about this image found in Typical boiling curve

Fig. 2 Physical model and coordinate system More about this image found in Physical model and coordinate system

Fig. 3 Comparison of temperature profiles for G = 0 , Gz = 0.05 , and Θ 0 = 6 , showing the effect of wall conduction. Left: when wall conduction is considered, the solution depends on the CCP. The wall temperature lies in the nucleate regime for CCP < 3 an... More about this image found in Comparison of temperature profiles for G = 0 , Gz = 0.05 , an...

Fig. 4 Comparison of shape factors for G = 0 , Gz = 0.05 , and Θ 0 = 6 , showing the effect of wall conduction. The dependence of the shape factors on the CCP is weak when a unique solution is admitted and toward the end of the plate both models predict practically th... More about this image found in Comparison of shape factors for G = 0 , Gz = 0.05 , and ...

Fig. 5 Comparison of temperature profiles in the multiplicity region. Gz = 5 × 10 − 2   with Θ 0 = 8 and ϕ = 2 . Left: multiplicity structure in the presence of wall conduction. Three solutions exist, one in each boiling regime. The ones in the nucleate ... More about this image found in Comparison of temperature profiles in the multiplicity region. Gz = 5 ...