SECOND SEMESTER TOPIC COVERAGE SY 2023-2024 Trends, Networks, and Critical Th...
Heat Transfer
1. Heat Transfer It is that area of mechanical engineering that deals with the different principles and mechanisms involved in transferring heat from one point to another. Heat Transfer
10. A furnace is constructed with 20 cm of firebrick, k = 1.36 W/m- K, 10 cm of insulating brick, k = 0.26 W/m- K, and 20 cm of building brick, k = 0.69 W/m- K. The inside surface temperature is 650 C. The heat loss from the furnace wall is 56 W/m 2 . Determine a. the interface temperature and the outside wall temperature, C b. the total resistance R t, for 1 m 2 Given: L 1 =0.20 m ; L 2 = 0.10 m ; L 3 = 0.20 m k 1 = 1.46 ; k 2 = 0.26 ; k 3 = 0.69 t 1 = 650 C Q/A = 56 W/m 2 L 1 L 2 L 3 1 2 3 4 Q A 1 2 R 1 Q 4 3 R 2 R 3
12. Convection Where: Q – convective heat flow, Watts A – surface area in contact with the fluid, m 2 h – convective coefficient, W/m 2 - C or W/m 2 -K t 1 , t 2 – temperature, C Fluid A 1 2 Q t 2 t 1 h
13. Conduction from Fluid to Fluid separated by a composite plane wall L 1 L 2 L 3 k 1 k 2 k 3 1 A 2 3 4 Q i h i t i o h o , t o
15. Overall Coefficient of Heat Transfer Where: U – overall coefficient of heat transfer, W/m 2 - C or W/m 2 -K
16. CONDUCTION THROUGH CYLINDRICAL COORDINATES Where: r 1 – inside radius, m r 2 – outside radius, m L – length of pipe, m k – thermal conductivity of material, W/m- C r 1 r 2 1 2 t 1 t 2 Q k
20. Heat Exchangers Types of Heat Exchangers 1. Direct Contact Type: The same fluid at different states are mixed. 2. Shell and Tube Type: One fluid flows inside the tubes and the other fluid on the outside. Direct Contact m 1 , h 1 m 2 , h 2 m 3 , h 3
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22. Shell and Tube Type m c m c m h m h 1 2 A B t wA t wB h 1 h 2
23. By energy balance Heat rejected by the hot fluid = Heat absorbed by the cold fluid Where: m c – mass flow rate of cold fluid, kg/sec m h – mass flow rate of hot fluid, kg/sec h – enthalpy, kj/kg t – temperature, C C pc – specific heat of the cold fluid, KJ/kg- C Q – heat transfer, KW h, c – refers to hot and cold, respectively 1, 2 – refers to entering and leaving conditions of hot fluid A, B – refers to entering and leaving conditions of cold fluid
24. Heat Transfer in terms of OVERALL COEFFICIENT Of HEAT TRANSFER U
25. Log Mean Temperature Difference (LMTD) Where: 1 – small terminal temperature difference, C 2 – large terminal temperature diffrence, C