Assignment Tasks Consider a system with two thermal capacitances ( C and C ). Heat Is supplied to the first capacitance at the rate T(I) by a heater, and heat Is lost at the left end to the environment. The first capacitance is connected to the second one through the thermal resistance Rr. The second capacitance is connected an the right side to the environment that has the temperature 9„. Except far the thermal resistances R, R, and R3, the enclosure Is assumed to be perfectly Insulated.
Consider the model described above with the following default values:
Implement the model In MATLAB and Simulink, using Simulink for the model and MATLAB to set parameters, call the model and plot the simulation results. Simulate the system with q, =0 for ten minutes then apply a step input of amplitude 3. Allow the system to reach steady state and plot In a single figure: thetemperaturea A(s), AO) and the input heat flaw q,((). Plat the time in minutes on the ).axis.
For each temperature ( A and A ), report the steady state value and the time required to reach ±2% of the steady state value.
Create a MATLAB GUI that allows a user to explore different values for the model parameters and the corresponding response from the system. It is also your task to explore the system enough to be able to understand the impact of each parameter in the response of the system and to be able to describe the significance of that parameter in the actual thermal system modelled.
For example: to begin exploring the system, increase the value of the second thermal resistance to 0.2 =50Ks/J and plot the system's response. What are the main differences compared to the response in Task 1? Relate the differences in the system's response with the actual thermal system described in the assignment Reset the parameters to the default case, then repeat this process for three more cases with different values of 1) R, or R,, 2) C, or Cr, and 3) A .
If you have medical or personal circumstances which cause you to be unable to submit this assignment on time or that may have affected your performance, please complete and submit a special circumstances farm along with documentary evidence of the circumstances. Please see: for guidance as to which form is appropriate far your circumstances, and what, if any, supporting documentation is required.
This assignment briefing, the lecture notes, and the laboratory handouts Call available on Blackboard) provide all the information that is required to complete this assignment. It is not expected that you should need to ask further questions. Remember that you need to decide an what is the most appropriate approach to carry out the simulations and present your results. This is also part of what you are being assessed an and will assess your knowledge and understanding of the taught material for ACS133.
This assignment/report 0,111 assess your fundamental understanding of physical systems, including use of MATLAB/Simulink relevant to the AC133 module. The assignment is a case study of the modelling and simulation eta thermal system that you have studied in the Spring semester.
• Your answers must consist of MATLAB code and Simulink model(s) used to solve the assignment questions shown below together with any supporting output results (plots/figures etc.) and any other relevant evidence to Justify your solution.
• In the report you need to address the questions directly, include your working methodology, justifications/assumptions, as well as include brief discussion of the results as appropriate.
• MATLAB code must have comments that include the title, author, date, the purpose of the cede and help details as shown in the MATLAB laboratory sessions.
• In doing the assignment, you should be prepared to use the MATLAB help system and do some personal study to learn about functians ar features yau may need.
You must submit a report document and at your relevant MATLAB/Simulink files.
• Report document You must submit the completed assignment report to the ACS133 Blackboard page, via Turnitin, as a single document. You must include your University registration number at the tap of every page (header). Your report should be ward processed, using minimum size font 11, minimum 2.5cm margins all around,
• MATO AB/Simulink Mes In addition to the report submission, you must also submit — via Tumitin • a single zip file (..zip, 5.7z, ..rar) containing your MATLAB and 51mulink files for the tasks described below. Important: Before submitting your MATLAB files, test your zip to make sure your code works when unzipped to a clean empty folder.., this is what will happen when it is marked.
Marking criteria The marking scheme is summarised here, but the marker will be focussed on what the student submission is worth overall and therefore may move some marks from one criteria to another where appropriate.
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