Power to be transmiteed is calculated by using following formula
P= (E1*E2/ X)*sin(delta)
X= Line reactance = XL-Xc
XL= Inductive Reactance
Xc=Capacitive Reactance
P= Power to be transmitted.
Thus ,
Increament in delta increase P
Decreament in X increases P
For this we use series, parallel, Combination of both compensation
FACTS Devices.
Standing waves present on an open transmission line?
No. It should not increase the energy efficiency by being a top loading machine compared to a front loading machine. Shop around for the type appropriate to your situation and financial capabilities.
If force is applied in the line of motion, then motion will increase, but when it is applied opposite to the line of motion, then motion will decrease.
4 m/s (squared)
Front loading will be able to get cleaned faster and easier because it is next to the washer jets.
By increasing Vr,Reducing in series inductance,increase capacitance
Think of a river getting fed by streams and creeks. These feeders increase the water flowing in the river like electrical feeders increase the current in the transmission line.
Usage of such high voltages will increase the efficiency of the transmission lines and decreases the losses in the line. It also reduces the requirement of conductor size.
Yes. Because... If we connect an alternator to a transmission line of high capacitance the line voltage will increase and caused a line voltage difference, which does not satisfied the condition of parallel operation of same voltage rating. [By Akhtaruzzaman08]
Due to corona effect virtually conductor size is increase and therefor resistance in transmission line is decreases.so I2R losses will decreases...
Actually surge impedance is present in a transmission line due to the capacitance of transmission line. Now this capacitor attends the reactive power of the transmission line to energise its magnetic flux. now due to the flux the impedance will increase and the power is reactive too. due to the impedance loss is more.
you punch then in the face!
how to fix a transmission without taking it a part how to fix a transmission line
The major Problems in the distribution and transmission of power are: 1. Power Thefts - biggest problem 2. voltage Control 3. Line/ Cable Faults 4. Heavy/ Over Loading on the feeders
It is dangerous because with capacitive load line voltage will increase which cause the line voltage difference and it will not satisfy the parallel operation of the same voltage rating.
A technique employed by some endurance athletes to increase their storage of muscle glycogen is
Only if it is a DC transmission line.