Hello All,
I am an electrical engineer and ive recently been studying high power distribution, which i never studied in school. Can anyone check what ive done here and let me know if it is correct or how to better approach it.
Questions
What is the maximum full-load primary current that you could safely design for a three phase 500 kVA transformer bank to provide if it has a high-voltage winding of 25GndY/14.4 kV?
What does the notation 25GNDY/14.4kV really mean?
Is it 25kV L-L and 14.4kV L-NEU?
Relevant equations
Full load current = VA / 1.73*Primary Voltage
Attempt at solution
Full load current = 500kVA / (1.73*25kV) = 11.56A *Assuming 25kV for primary voltage
Full load current = 500kVA / (1.73*14.4kV) = 20.07A *Assuming 14.4kV for primary voltage
Thanks everyone for your time.
Full load current = 500kVA / (1.73*25kV) = 11.56A *Assuming 25kV for primary voltage Full load current = 500kVA / (1.73*14.4kV) = 20.07A *Assuming 14.4kV for primary voltage
I am an electrical engineer and ive recently been studying high power distribution, which i never studied in school. Can anyone check what ive done here and let me know if it is correct or how to better approach it.
Questions
What is the maximum full-load primary current that you could safely design for a three phase 500 kVA transformer bank to provide if it has a high-voltage winding of 25GndY/14.4 kV?
What does the notation 25GNDY/14.4kV really mean?
Is it 25kV L-L and 14.4kV L-NEU?
Relevant equations
Full load current = VA / 1.73*Primary Voltage
Attempt at solution
Full load current = 500kVA / (1.73*25kV) = 11.56A *Assuming 25kV for primary voltage
Full load current = 500kVA / (1.73*14.4kV) = 20.07A *Assuming 14.4kV for primary voltage
Thanks everyone for your time.
Full load current = 500kVA / (1.73*25kV) = 11.56A *Assuming 25kV for primary voltage Full load current = 500kVA / (1.73*14.4kV) = 20.07A *Assuming 14.4kV for primary voltage
