MP4583 Advanced Engineering Systems Assignment – School Of Engineering – University Of Central Lancashire, UK Learning outcomes – LO1 – To develop and enhance research, investigative, evaluative and problem-solving abilities. LO2 – To develop a rigorous approach to the inclusion of modelling limitations in the analysis and synthesis of systems. LO3 – To investigate factors influencing the design and performance of a suitably complex engineering system. LO4 – To integrate the fundam

MP4583 Advanced Engineering Systems Assignment – School Of Engineering – University Of Central Lancashire, UK

Learning outcomes –

LO1 – To develop and enhance research, investigative, evaluative and problem-solving abilities.

LO2 – To develop a rigorous approach to the inclusion of modelling limitations in the analysis and synthesis of systems.

LO3 – To investigate factors influencing the design and performance of a suitably complex engineering system.

LO4 – To integrate the fundamental principles associated with engineering systems.

Indicative Exercise – You are to submit a report, such that it addresses all the questions.

Exercise I – What is a shockwave? Using suitable sketches, describe the following:

i. A normal shockwave

ii. An oblique shockwave

iii. An attached shockwave

iv. A detached shockwave

Exercise II – Using the relevant isentropic assumptions, show that speed of sound is:

c = √(γRT) = √(γP/ρ)

Exercise III – Derive the respective expressions for the ratios of static to stagnation state properties of an isentropic flow over the immersed solid object in Fig. 1, as function of the approaching flow Mach number, M1.

Exercise IV – Gas is delivered from the gas chest via a duct in Fig. 2. A section downstream the duct, the flow is known to experience a normal shockwave.

Without any derivations and using the regular notations in Fig. 2, list the relevant equations (Table 1) for the state ratios, ψn0n, as a function of Mn.

Table 1: Flow equations in a duct with shockwave

State ratio2

ψ101

ψ12

ψ202

ψ0102

Class of flow3

As a function of:

M1

M1

M2

M1 or M2

Pressure

Temperature

Density

Mach

M2 = M2(M1) = ?

Exercise V – Describe a pitot-tube and discuss its applications.

Exercise Vi – Briefly compare the use of pitot-tube in the following applications, referring to the appropriate equations and sketching the flow zones:

i. Sub-sonic flows

ii. Supersonic flow

Exercise VII – Figure 3 shows schematics of a pitot tubes in different flows. By the Bernoulli equation of an incompressible flow, the speed of the flow is obtained using ub = √(2(P0-P1)/ ρ). What is the percentage error in using the Bernoulli’s equation in the following conditions?

Seminar – Prepare a 10 minutes slides seminar on any one of the following topics:

1. Turbulence modelling in Supersonic flows

2. Pneumatic Control systems

3. Compressible flows in Nature

4. Aerothermodynamics in Space vehicle in atmospheric re-entry

5. Prandtl Meyer Flow

6. The supersonic jet age: The race and the science

7. Fluid Logic Control Systems

8. Hypersonic machines

9. Microfluidics

10. Shockwaves

Your audience is typical of those you will find in a TEDTalk. As an indicative guide (in no order), your slides must give an appropriate introduction to the topic, areas of applications, some theoretical and numerical considerations or methods, classical and contemporary issues, the future, some academic results/data presentation, conclusions or commentaries.

You must cite and list a minimum of 10 good quality references (using the IEEE format). These are journals, conference papers and textbooks. Websites/forums do not count as high quality references but may be used when citing pictures.

This report has an indicative 1,500 word count. Use IEEE citation standard.

GET THE WORK DONE AT ESSAYLINK.NET

Reference no: EM132069492

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