Microsoft Word - Cengel and Boles TOC _2-03-05_.doc

864 | Thermodynamics

EXAMPLE 17–13 Extrema of Rayleigh Line

Consider the T- sdiagram of Rayleigh flow, as shown in Fig. 17–54. Using the differential forms of the conservation equations and property relations, show that the Mach number is Maa1 at the point of maximum entropy (point a), and Mab1/ at the point of maximum temperature (point b).

Solution It is to be shown that Maa1 at the point of maximum entropy and Mab1/ at the point of maximum temperature on the Rayleigh line. Assumptions The assumptions associated with Rayleigh flow (i.e., steady one-dimensional flow of an ideal gas with constant properties through a constant cross-sectional-area duct with negligible frictional effects) are valid. Analysis The differential forms of the mass (rV constant), momentum [rearranged as P+ (rV)Vconstant], ideal gas (PrRT), and enthalpy change ( hcp T) equations can be expressed as

(1)

(2)

(3)

The differential form of the entropy change relation (Eq. 17–40) of an ideal gas with constant specific heats is

(4)

Substituting Eq. 3 into Eq. 4 gives

(5)

since cpRcvSkcvRcvScvR/(k1)

Dividing both sides of Eq. 5 by dTand combining with Eq. 1,

(6)

Dividing Eq. 3 by dVand combining it with Eqs. 1 and 2 give, after rearranging,

(7)

Substituting Eq. 7 into Eq. 6 and rearranging,

(8)

Setting ds/dT0 and solving the resulting equation R^2 (kRTV^2 ) 0 for Vgive the velocity at point ato be

Va 2 kRTa¬and¬Maa (9)

Va ca

2 kRTa

1

ds dT

R T 1 k 12

R TV^2 >R

R^21 kRTV^22 T 1 k 121 RTV^22

dT dV

T V

V R

ds dT

R T 1 k 12

R V

dV dT

dscp

dT T

Ra

dT T

dr r

b 1 cpR 2

dT T

R

dr r

R k 1

dT T

R

dr r

dscp

dT T

R

dP P

PrRT S dPrR dTRT dr S

dP P

dT T

dr r

P 1 rV 2 Vconstant S dP 1 rV 2 dV 0 S

dP dV

rV

rVconstant S r dVV dr 0 S

dr r

dV V

1 k

smax

Tmax

Ma 1

0

Ma 1

T

a a

b b ds dT

s

dTds ^0

FIGURE 17–54 The T-sdiagram of Rayleigh flow considered in Example 17–13.

cen84959_ch17.qxd 4/21/05 11:08 AM Page 864

Microsoft Word - Cengel and Boles TOC _2-03-05_.doc

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