- LL5306 Commercial Law Assessment Coursework Brief 2026 | Kingston University
- M22319 / M33098 Numerical Skills & Economics Assessment Coursework | UOP
- BMG872 Global Strategy Development and Implementation Individual Assignment CWK Brief 2026
- LLB020N204A Law of Property Assessment Coursework Brief 2026
- BS3397 Microeconometrics Coursework Assignment Brief 2026 | AU
- UMAD47-15-M Managing Finance Assessment Coursework Brief | UWE
- BST851 Business Data Analytics Assessment Coursework 2026
- MMM143 International Business and the World Economy Coursework 2026
- EMS402U Engineering Design Coursework Project Report 2026 | QMUL
- 25BSC565 Fundamentals of Strategic Management Coursework Brief
- MARK5025 Contemporary Marketing Communications Assessment Coursework Brief 2
- GEEN1127 Design and Materials Individual Coursework Brief 2025-2026 | UOG
- BPS319 PBL 3 Natural Product Chemistry vs Kinetic Isotope Effects Coursework | UOL
- LD7098 Cyber Security Principles Coursework Assessment 2025-26 | Northumbria University
- EG7004 Soil Structure Engineering Assignment 1 Coursework Semester A 2025/26 | University of East London (UOEL)
- BSC127 Information and Knowledge Management Individual Coursework | Loughborough University
- CI5250 Computing Systems Assignment – Networking Design Coursework | Kingston University
- Critical Literature Review Assignment 001 Coursework | Harvard University
- AFE_5_TAP Taxation Practice Assignment Coursework | London South Bank University
- EEEE3083 Power Electronic Aplications and Control Assessment Coursework 1 Individual Report | University of Nottingham
MP3395: You have recently joined the research department of an engineering company that has been contracted to design and evaluate: Mechanical Engineering Systems, UCL, UK
| University | University Of Central Lancashire (UCLan) |
| Subject | MP3395: Mechanical Engineering Systems |
Learning Outcomes:-
- Structured and informed design and development of engineering systems through the application of scientific principles and methodology to a variety of systems.
- Apply mathematical and engineering principles as either a part of the whole of the analysis and evaluation of the performance of a variety of engineering systems and processes quantifying the limitations of the modeling.
- Apply mathematical and engineering principles as either a part of the whole of the analysis and evaluation of the performance of a variety of engineering systems and processes quantifying the limitations of the modeling.
Background
You have recently joined the research department of an engineering company that has been contracted to design and evaluate the heat exchanger system for cooling the lubricating oil for an industrial gas turbine engine bearing. The ball bearings manufacturer indicated that the lubricating engine oil is to be delivered between 55oC and 65oC, inclusive for optimal performance. The customer has requested that you design a simple concentric-tube heat exchanger. Water flows through the inner tube and the lubricating oil flows in the outer annulus. They want to know if you have other suggestions, but mainly want a detailed thermal design and evaluation of your simple concentric-tube design using both analytical and numerical techniques. The industrial customer has given some restrictions that you must also keep to.
You received a copy of the hand-over note from Joe Bloggs who was originally working on the project before you. Joe recommended that a tube length, πΏπ‘, of 150m will be required to achieve this.
In this work, you are to critically analyze and evaluate the performance of your design based on the customerβs request and use supporting literature where applicable in your recommendations. Your manager would like to know your view on Joeβs recommendation.
- The flow rate of the cooling water, πΜ π€ [kg/s] where 0.15 β€ πΜ π€ β€ 0.25
- The flow rate of the lubricating oil, πΜ π [kg/s] where 0.10 β€ πΜ π β€ 0.15
- The inlet temperature of lubricating oil, ππ,ππ [oC] where 95 β€ ππ,ππ β€ 120
- The inlet temperature of cooling water, ππ€,ππ [oC] where 25 β€ ππ€,ππ β€ 35
- The inner tube diameter is π·π‘,ππ [mm] where 25 β€ π·π‘,ππ β€ 35
- The outer tube diameter is π·π‘,ππ’π‘ [mm] where 45 β€ π·π‘,ππ’π‘ β€ 55
- Use copper in the inner tube with a thickness of 5mm in your CFD analysis. You can neglect this thickness and fouling your analytical calculations.
- Assume constant properties; See Table 1 for oil properties.
- Make and state other reasonable assumptions.
- Carry out a CFD analysis on a section of the simple design. Use the analytical method to verify your CFD.
- Using CFD techniques, how can this design be improved?
Are You Looking for Answer of This Assignment or Essay
If youβre looking for help with coursework writing,Β then you can get UK Assignment Help experts to help you.Β Our experts have enough experience to write quality coursework solutions on engineering assignments. Students often ask βCan I hire someone to take my online exam?β and our writer’s answer is YES! You can get our expert writers to take your online exams for you.
Answer
