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Chemical Engineering :: Heat Transfer

  1. The average heat transfer co-efficient over the entire length of the plate (ha) and the local heat transfer co-efficient (hL), in case of heat transfer over a flat plate in lminar zone is related as

  2. A.
    ha = 0.8hL
    B.
    ha = 2hL
    C.
    ha = hL
    D.
    ha = 5hL

  3. What is the logarithmic mean of r1 and r2 ?


  4. Maximum heat transfer rate is achieved in __________ flow.

  5. A.
    co-current
    B.
    counter-current
    C.
    turbulent
    D.
    laminar

  6. Wavelength corresponding to the maximum energy is inversely proportional to the absolute temperature. This is __________ law.

  7. A.
    Stefan's
    B.
    Dalton's
    C.
    Wien's
    D.
    Kirchoffs

  8. Three material A, B and C of equal thick-nes and of thermal conductivity of 20, 40 & 60 kcal/hr. m. °C respectively are joined together. The temperature outside of A and C are 30°C and 100°C respectively. The interface between B and C will be at a temperature of __________ °C.

  9. A.
    40
    B.
    95
    C.
    70
    D.
    50

  10. Which of the following parameters of the fluid is not very important, while deciding its route in a shell and tube heat exchanger?

  11. A.
    Corrosiveness & fouling characteristics
    B.
    pressure
    C.
    viscosity
    D.
    density

  12. Corrosiveness of steam condensate is due to the presence of

  13. A.
    CO2
    B.
    dissolved O2
    C.
    both (a) & (b)
    D.
    neither (a) nor (b)

  14. The equation, (NSt x N2/3Pr) = f/2, is the __________ analogy.

  15. A.
    Colburn
    B.
    Reynolds
    C.
    Prandtl
    D.
    none of these.

  16. The driving potential for the crystal growth during crystallisation is the __________ of the solution.

  17. A.
    concentration
    B.
    viscosity
    C.
    super-saturation
    D.
    density

  18. jH factor for heat transfer depends upon the __________ number.

  19. A.
    Biot
    B.
    Nusselt
    C.
    Reynolds
    D.
    Prandtl