SEE210: Power Engineering Design Assessment Criteria and Guidelines: Final Report Full Marks: 20 Assessment Criteria: Practical Project Validation Page 1 Overview This assessment is an individual task and it covers the following learning outcomes: ― ULO1 - Demonstrate specialised knowledge and technical competence in finding engineering solutions to a range of scenarios. ― ULO3 - Communicate project details through the use of oral and written communication to a professional audience. Assessment Criteria: In your final report, you must address the following points  Summary of the results from project design and component validations: 8 Marks In this part, you need to discuss the results that you have obtained from your project design and practical project validation. Also you need to provide clear explanation indicating the reasons whether for matching or not matching these results.  Three-Phase Representation of the Whole Project and Relevant Calculations: 6 Marks In this part, you need to draw the three-phase equivalent circuit of the whole project and you need to calculate the line current and voltage at different stages as you have done during the practical project validation  Single-Phase and Per Unit Representation of the Whole Project along with Relevant Calculations: 6 Marks In this part, you need to draw the single-phase circuit and finally convert the parameters into per unit by considering suitable base values of volt-ampere and voltage.  Power/Load Flow Study: 0 Mark This part is optional and its upto you whether you will include this or not.SEE210: Power Engineering Design Assessment Criteria and Guidelines: Final Report Full Marks: 20 Assessment Criteria: Practical Project Validation Page 2 Guidelines: First Part The first part is mainly related to your two previous assessment and this will allow to further justify your understanding on the concepts related to power engineering design. Second and Third Parts The following steps will help you to complete these two parts: Step 1: Start with the generation system. Consider a three-phase generator/power supply with the voltage as indicated your project outline. Draw an equivalent circuit in three-phase. Step 2: Get a three-phase (Y-Y) transformer. Also draw the three-phase equivalent circuit of the transformer. Now combine this equivalent circuit with the three-phase generator/power supply in Step 1. The primary of this transformer will be connected to the generator/power supply. Step 3: Connect one-side of a three-phase transmission line to the secondary of the transformer in Step 2. Draw the three-phase equivalent circuit from the generator/power supply to the transmission line (i.e., generator/power supply+Y-Y transformer+transmission line). Step 4: Get another three-phase (Y-Y) transformer. The primary of this transformer will be connected to the transmission line in Step 3. Draw the three-phase equivalent circuit from the generator/power supply to this transformer (i.e., generator/power supply+Y-Y transformer+transmission line+ Y-Y transformer). Step 5: Connect one-side of a three-phase transmission/distribution line to the secondary of the transformer in Step 4. Draw the three-phase equivalent circuit from the generator/power supply to the distribution line (i.e., generator/power supply+Y-Y transformer+transmission line+Y-Y transformer+distribution line). Step 6: Draw the equivalent circuit diagram of the load based on the information provided in the project outline. Connect this load with the distribution line in Step 5. Draw the three-phase equivalent circuit from the generator/power supply to the load (i.e., generator/power supply+YY transformer+transmission line+Y-Y transformer+distribution line+load). Now you will have the full circuit diagram of a three-phase power system which will answer the first part of the project question. Step 7: Draw the single-phase equivalent circuit from the generator/power supply to the load as obtained in Step 6 (i.e., generator/power supply+ transformer+transmission line+ transformer+distribution line+load).SEE210: Power Engineering Design Assessment Criteria and Guidelines: Final Report Full Marks: 20 Assessment Criteria: Practical Project Validation Page 3 Now you will have the full circuit diagram of a single-phase power system which will answer the second part of the project question. Step 8: Draw the single-line diagram from the generator/power supply to the load as obtained in Step 7 (i.e., generator/power supply+ step-up transformer+transmission line+ step-down transformer+distribution line+load). Step 9: Use relevant theories from Week 9 to draw the circuit in per unit quantity. Step 10: Use relevant circuit theories to calculate the values of current and power losses in different sections of the network in per unit as well as the actual values.