Calculate the final temperature and fraction of system freezes if a small ice crystal is added to seed subcooled pure liquid. Also find the Δ S t o t a l for the process. What is its irreversible features. Concept Introduction: After adding small ice crystal in the subcooled pure liquid, it tries to regain its original temperature 0 ∘ C , So the process is two-step process where in first step heating (sensible heat) occurs from temperature − 6 ∘ C to 0 ∘ C and in second phase change occurs after the liberation of latent heat. So, the overall heat transferred occurs during process is: Q = Δ H = C P Δ T + x Δ H f u s i o n .... (1) Where first term in right side is sensible heat and second term is latent heat, C P is the specific heat of subcooled liquid water, Δ T is temperature change during process, x is the fraction of system freezes, Δ H f u s i o n is the latent heat of fusion of water. The total entropy change if Δ H f u s i o n is given, Δ S = C P d T T + x Δ H f u s i o n T ⇒ Δ S = C P ln T 2 T 1 + x Δ H f u s i o n T 2

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Chapter 6, Problem 6.17P

Interpretation Introduction

Interpretation:

Calculate the final temperature and fraction of system freezes if a small ice crystal is added to seed subcooled pure liquid. Also find the ΔStotal for the process. What is its irreversible features.

Concept Introduction:

After adding small ice crystal in the subcooled pure liquid, it tries to regain its original temperature 0∘C, So the process is two-step process where in first step heating (sensible heat) occurs from temperature −6∘C to 0∘C and in second phase change occurs after the liberation of latent heat. So, the overall heat transferred occurs during process is:

Q=ΔH=CPΔT+xΔHfusion

.... (1)

Where first term in right side is sensible heat and second term is latent heat, CP is the specific heat of subcooled liquid water, ΔT is temperature change during process, x is the fraction of system freezes, ΔHfusion is the latent heat of fusion of water.

The total entropy change if ΔHfusion is given,

ΔS=CPdTT+xΔHfusionT⇒ΔS=CPlnT2T1+xΔHfusionT2

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