20 In 1916 Nusseft derived predicting The Fheoretical relation for coefficient of heat transfer between a pare saturated vapor and a Surface: 14 h ₂0.943/ Kogn LUST AT colder where h is the mean heat transfer coefficient (hE] ont (hE] - BTU (hr) (ft ²) (°F) A is the thermal conductivity BTU (KE) (hc) [ff) (FF) o P is the density (ft) 173 9 is acceleration due to graund Thir gravity the change (A[₂) BTY" tb Levally fute in ft, Ms is the viscality (M[=]=([^/(A) the length of the M. (hr) (ft) and OT is the temperature difference What are the units of the constant 0.9932

What are the units of the constant 0.943?

Transcribed Image Text:

In 1916 Nusseft derived theoretical relation for predicting coefficient of heat transfer between a pare saturated vapor and a : 1/4 h ₂0.943/ Kpgr LUST A is the thermal conductivity BTU (hr) (ft) (°F) Where h is the mean heat transfer. coefficient (hE] +(hE] - BTU (hr) (f+²) (°F) The colder 19 pis the density F73 change (A[2) BTY Hb 9 is acceleration due to graund enthalpy gravity the T² F evaporation "'I is the length of the tube ft, M. is the viscosity (M[=] [bm (hr) (ft) and OT is the temperature difference What are the units of the constant. 0.993 ?