- OTHM Level 5: J/650/1143 Research Methods in Health and Social Care
- Feasibility Study for Night Moves: Event Logistics at Finsbury Park, Assignment 2
- EU Law: Dominant Undertakings & EU Four Freedoms – Legal Implications and Market Impact
- BTEC Level 3 Unit 19 Analogue Electronic Devices and Circuits, Assignment 2
- OTHM Level 5 Unit 2 T/650/1139 Managing the Safeguarding and Protection of Vulnerable Individuals
- Legal Analysis of Negligence Claim Against SamsTech for AI Chatbot Errors
- FINA 1007 Research Methods: Assessment Guide & FAQs
- Mathematical Methods in Physics Assignment Question
- Unit 5048 J/650/2990 Sensors and Automation BTEC Level 5
- Transport for London (TfL) Cycle Data Analysis Project – Programming & Data Science
- Sport Coaching Portfolio: Safe, Ethical, and Effective Practices – Assessment 2
- K/507/1406 HSC CM1 Unit 1 Equality, diversity and rights in health and social care, NCFE CACHE Level 3
- MS420/MS508 Advancing Sustainable Development Goals (SDGs) through Business Practices
- C1808 Unit 500 Understanding Leadership and Management in Adult Care – Theories, Styles & Best Practices
- Level 5 Leadership and Management in Adult Care Unit 17, Unit 18 & Unit 16
- Donald Trump’s Statement on South Africa: Economic and Health Impacts
- Level 3 Certificate in Assessing Vocational Achievement (CAVA)
- H/615/1488 Unit 4014: Production Engineering for Manufacture, BTEC Level 4
- CIPD Level 7CO02 People Management: Strategy, Engagement & Technology
- Unit 6: HND Construction Management – Architectural Design and CAD Standards
ELEC3213: An 8 MW and 5 MVAR three phase balanced load is connected to a three phase source with a voltage of 13.8 kV through a transmission line: Power Systems Engineering Assignment, UOS, UK
| University | University of Southampton (UOS) |
| Subject | ELEC3213: Power Systems Engineering |
An 8 MW and 5 MVAR three phase balanced load is connected to a three phase source with a voltage of 13.8 kV through a transmission line. The line is 20 miles in length and has a series impedance of 0.025 + j0.05 0 per mile and it is rated at 25 MVA.
a) Use PowerWorld to find the line current, load voltage and the losses in the transmission line.
b) Comment on the system and check if anything needs adjustment or if you would suggest any change; justify your response.
c) After 5 years, the load is expected to grow by 50 % (with the same power factor). Use PowerWorld to estimate the line current, load voltage and line losses at this time. Also using the simulator, find the voltage profile along the line; i.e. plot the line voltage versus the length of the line.
d) Based on these results, comment on whether the network will need improvement or it could continue without any adjustment.
e) A capacitor bank is planned to be installed after 5 years to correct the power factor of the load to 0.99. Estimate and comment on the effect of this on:
• The line current,
• The line voltage profile and compare it with the line voltage profile obtained in task (c),
• The line losses and
• The load voltage. Activate WI
f) Estimate the financial saving on losses the connection of the capacitor bank will to Settings • bring (assume £0.16 per kWh) each year. Comment on the economic feasibility of this step.
Buy Answer of This Assessment & Raise Your Grades
Students Assignment Help UK offer the university assignment help on ELEC3213: Power Systems Engineering. our native writers are highly talented to provide the error free and 100% plagiarism free solution on engineering assignments at a reasonable price.
Answer
