A streamlined strut supporting a bearing housing is exposed to a hot airflow from an engine exhaust. It is necessary to run experiments to determine the average convection heat transfer coefficient h from the air to the strut in order to be able to cool the strut to the desired surface temperature Ts' It is decided to run mass transfer experiments on an object of the same shape and to obtain the desired heat transfer results by using the heat and mass transfer analogy.

The mass transfer experiments were conducted using a half-size model strut constructed from naphthalene exposed to an airstream at 27°e. Mass transfer measurements yielded these results:

(a) Using the mass transfer experimental results, determine the coefficients C and m for a correlation of the form ShL = C ReLm Se1/3.

(b) Determine the average convection heat transfer coefficient h for the full-sized strut, L H = 60 mm, when exposed to a free stream airflow with V = 60 m/s, T∞ = 184°C, and p∞ = 1 atm when Ts, = 70°C.

(c) The surface area of the strut can be expressed as As = 2.2LH ∙ 1, where / is the length normal to the page. For the conditions of part (b), what is the change in the rate of heat transfer to the strut if the characteristic length LH is doubled?

Transcribed Image Text:

+ LH = 60 mm- Strut To Poo т, Sh. ReL 60,000 282 120,000 491 568 144,000 288,000 989 111