Question

Question 1 25 ترفع الاجابة على شكل ملف PDF يحوي جميع الأجوية 1: Atmospheric air at 25°C flows with a velocity of 40 m/s past a flat plate 0.75 m long and 0.4 m wide. The surface of the plate is maintained at 275°C. Estimate: (a) the total heat transferred and the total drag force on one side of the plate (b) fraction of the heat transfer and drag force for laminar portion of flow (c) what error in part (a) would result if the boundary layer is assumed to be turbulent from the leading edge.

Answer 1

TU turbulent Given that, Atmospheric temp. To =250 Air reloc velocity, V = 40mis. length of plate, b=0.75m. width of plate, B = 0.45 m. surface temp, Is = 27500 @ propesties of air at meau temperature, Tm. will be 275 + 25 = 150°C. laminar Ts. ke E L-2 - L Tom 2 at Tom = 150°C, properties of air are р - 0-8345 kg/ma k=0.03565 W/mk v=28=95x106 sols. pr=0.683 Now, determine the Reporold's no over entire Length, Rea 40xo-75 28.95810-6 VL = Re: ĽO 36269.43 Since, the Reynold's moRe > 5x105. Heuce. the flow is turbulent. Noo, we need to length of lawinar regions in the plate. To determine that we need to use critical Reynolds no. Re= - 5x105, sx108x 28.958106 40 5x105 va v x = CS Scanned with CamScanner

20-362 m 0.8 Ne= since, the flow is turbulent with laminat region. The nesselt number over the entire plate will be. AL =[0.037 for sxios < Re, < 107 and pr. Z O.6 to 260 Hence, Nuz [0-037 K1-036 *10° 3°•4 871]x0.6875 137 Rę 871] Prz Nu z 1347-88 Now, we know that, hL ha konu he Ne z Scanned with CamScanner CS k L

키 ho 1347.88% 0.03565 0.75 h=64.07 w wonek Now, the toteal heat transfer, Q = LAS (Ts-To) = 64.07 x 0.75X0.45 (275-25) Q = 5406 w Now, for turbulent flow along with with laminar region, the coefficient of drag is written CS Coscanner

Co= 1742 0.074 Reg-2 rea . 0.074 1742 (1-036x106j92 (1.036x105) C = 2.9558 103 Hence, the Drag force on the plate. fo = 6. PAV? = 2.955x16°x£x0.8345 x 0.75X0.45X fo x 402 = 0.6657 N b Noro, determining the heat transfer Coefficient and drag coefficient of for laminas legion. We will cese local heat transfer coefficient and local drag coefficient local heat trausfer coefficient, Nu = hx = 0.332x Reloos pots. 0.332 (5x105) x 0.683 Hz. Nu = 206.74 K 0-5 ㅋ Nu= 0.332 since, the laminas region is upto Re=5x105 h = 206.74 X 0.03565 ha Nuz 0.362 lhe 20-36 w/ofk. ICS Scanned with CamScanner

2 WBX on2 Quam Qlam. foram fx £ P As N² Now, heat trausfer en laminar segion. Qlam. = hem Ą (Is-Too). Ą= Laminar region area. 3 0.45 x 0.362 = 0.1629 om = 20.36 x 0.1629 (235-25) = 829.161 W fraction of heat trausfer in laminar region to total heat trausfer. 829.161 0.1534 % fraction z 15.34%. Now, local coefficient of drag fx = 0.664 rea (5x105 jos Heuce, osag force in laminar portions. Qlam. = S406 joe 0-664 0.5 = 9.39x1074. x = 9.398104 = 9.39x104 x 4x0.8345 X0.1629 x 402 2 2 0.1021 Ni to cam fraction of drag force on laminar segion Diam. z 0-1534 CamScafor 0.6657 0.1021 CS Scanned' Wem.

= 15.344. s fraction in % © Now, If the boundary layer is assumed to be tersaleut from the leading edge. then, Neesselt no. over entire length Nuz 0-037 Respor's = 0.037 X{1-036x109) °0-683 -6823. 0.8 Nu = 2114.93 and arag coefficient. Сь Rę (1036x10630-2 0.074 0-074 - 0.2 - 4.636 X10 -3. -3 4.636 x 10 's Go a Hence, error in Musself no a Nua- Neela X100 = 2114.93-1347.88 X 100 1347.88 Nua % error 2 56.917. ie 56.917. higher than considering laminar region in turbulent flow. cs and with error in drag coefficielt CamScanner ro

7. errara Com Coat X100. Coa 4.636 X10-3 2.95x10 -3 = X100 2.95X10-3 z 57.15). = 57.157. error in drag coefficient It meaus that arag coefficient is 57-15% higher than when considering laminas Region in the flow CS Scanned with CamScanner