Answered step by step
Verified Expert Solution
Link Copied!

Question

1 Approved Answer

3. Supersonic shear layer interaction at off-design conditions a. Consider a flow at M = 3.0 with p = 90 kPa and T =

image text in transcribed

3. Supersonic shear layer interaction at off-design conditions a. Consider a flow at M = 3.0 with p = 90 kPa and T = 800 K exhausting into an ambient environment with no flow at p = 100 kPa and T = 300 K. The mismatch in pressure requires the formation of an oblique shock at the lip of the channel. See Fig. 3a. i. [5 pts] Determine the Mach number of the exhaust M3. ii. [5 pts] Determine the angle made by the shock a. M = 3.0 P = 90 kPa T = 800 K M3 a P2 = 100 kPa T = 300 K Figure 3.a. Overexpanded jet into the ambient. b. Consider a flow at M = 3.0 with p = 90 kPa and T = 800 K exhausting into a coflowing i. ii. stream at M = 2.9 with p = 50 kPa and T = 250 K. The mismatch in pressure requires the formation of a Prandtl-Meyer expansion at the lip of the channel. See Fig. 3b. [5 pts] Determine the Mach number of the exhaust M3 downstream of the expansion fan. [5 pts] Determine the angle made by the downstream flow with respect to the incoming direction a. P = 90 kPa M = 3.0 T = 800 K M3 P2 = 50 kPa M = 2.9 T = 250 K Figure 3.b. Underexpanded jet into a coflowing stream. The gas constant for air is R = 287 J/(kg.K) and the specific heat ratio is y = 1.4. Assume that the flow is inviscid.

Step by Step Solution

There are 3 Steps involved in it

Step: 1

blur-text-image

Get Instant Access to Expert-Tailored Solutions

See step-by-step solutions with expert insights and AI powered tools for academic success

Step: 2

blur-text-image

Step: 3

blur-text-image

Ace Your Homework with AI

Get the answers you need in no time with our AI-driven, step-by-step assistance

Get Started

Recommended Textbook for

Numerical Methods For Engineers

Authors: Steven C. Chapra, Raymond P. Canale

5th Edition

978-0071244299, 0071244298

More Books

Students also viewed these Mechanical Engineering questions