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PE 330 ENERGY CONSERVATION LECTURES (6-7) Insulation 1-Introduction

Pharos University جامعه فاروس Faculty of Engineering كلية الهندسة Petrochemical Department قسم البتروكيماويات. PE 330 ENERGY CONSERVATION LECTURES (6-7) Insulation 1-Introduction

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PE 330 ENERGY CONSERVATION LECTURES (6-7) Insulation 1-Introduction

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  1. Pharos University جامعه فاروس Faculty of Engineering كلية الهندسة Petrochemical Department قسم البتروكيماويات PE 330 ENERGY CONSERVATION LECTURES (6-7) Insulation 1-Introduction A hot reaction or storage vessel or a steam pipe will lose heat to the atmosphere by radiation, conduction, and convection. The loss by radiation is a function of the fourth power of the absolute temperatures of the body and surroundings, and will be small for low temperature differences.

  2. Heat loss by conduction: q=-k A (∆T/∆x) Heat loss by convection: q=h A(Ts-T∞) Heat loss by Radiation: q”= ε Ϭ (Ts 4 - Tsurrounding4)

  3. 2-THERMAL RESISTANCE : In particular, there exists an analogy between the diffusion of heat and electrical charge. Just as an electrical resistance is associated with the conduction of electricity, a thermal resistance may be associated with the conduction of heat. Defining resistance as the ratio of a driving potential to the corresponding transfer rate:

  4. THERMAL RESISTANCE FOR CONDUCTION IN PLANE WALL: Thermal resistance for conduction in a plane wall is:

  5. THERMAL RESISTANCE IN COMPOSITE WALLS (BOTH CONDUCTION AND CONVECTION):

  6. THERMAL RESISTANCE IN PARALLEL COMPOSITE WALLS: The equivalent resistance in case of parallel walls = (R1R2/R1+R2)

  7. Example (1): A house has a composite wall of wood, fiber glass insulation, and plaster board as indicated in the sketch. On a cold winter day the convection heat transfer coefficients are ho = 60 W/m2.K and hi = 30 W/m2.K. The total wall surface area is 350 m2. Determine the total heat loss through the wall.

  8. THERMAL RESISTANCE IN CYLINDERS (BOTH CONDUCTION AND CONVECTION):

  9. Example 2:

  10. Solution:

  11. Critical Thickness of insulation:

  12. Example 3

  13. Solution

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