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To Food Engineering Solutions Manual - Introduction

$$\Delta T_1 = 85 - 72 = 13^\circ\textC$$ $$\Delta T_2 = 50 - 4 = 46^\circ\textC$$ $$\Delta T_lm = \frac\Delta T_2 - \Delta T_1\ln(\Delta T_2 / \Delta T_1) = \frac46 - 13\ln(46/13) = \frac33\ln(3.538) = \frac331.263 = 26.13^\circ\textC$$

$$\boxedt \approx 2.28 \text hours$$ Problem 5.14: Heat Exchanger Design (Pasteurizer) Given: Milk ($c_p = 3.9 \text kJ/kg\cdot\textK$) flows at 0.5 kg/s from 4°C to 72°C. Hot water ($c_p = 4.18 \text kJ/kg\cdot\textK$) enters at 85°C, exits at 50°C. Overall $U = 1500 \text W/m^2\cdot\textK$. Find area for counter-flow. Introduction To Food Engineering Solutions Manual

$$Q = \dotm m c p,m (T_m,out - T_m,in)$$ $$Q = (0.5)(3900)(72 - 4) = 0.5 \times 3900 \times 68 = 132,600 \text W$$ $$\Delta T_1 = 85 - 72 = 13^\circ\textC$$

$$\ln(0.01803) = -5.2275 X \Rightarrow -4.015 = -5.2275 X \Rightarrow X = 0.768$$ $$Fo_cyl = 0.768 = \frac\alpha tR^2 = \frac(1.5\times10^-7) t(0.04)^2$$ $$t = \frac0.768 \times 0.00161.5\times10^-7 = 8192 \text s$$ Find area for counter-flow

Not required here.

$$Q = \dotm_w (4180)(85 - 50) \Rightarrow \dotm_w = \frac1326004180 \times 35 = 0.906 \text kg/s$$

$$Q = U A \Delta T_lm \Rightarrow A = \fracQU \Delta T_lm = \frac1326001500 \times 26.13$$ $$A = \frac13260039195 = 3.383 \text m^2$$