The electrical system is of two types i.e., the single phase system and the three phase system. The single phase system has only one phase wire and one return wire thus it is used for low power transmission. The three-phase system has three live wire and one returns path. The three phase system is used for transmitting a large amount of power. The 3 Phase system is divided mainly into two types. One is Balanced three phase system and another one is unbalanced three phase system.
The balance system in one in which the load are equally distributed in
all the three phases of the system. The magnitude of voltage remains
same in all the three phases and it is separated by an angle of 120º. In
unbalance system the magnitude of voltage in all the three phases
becomes different.
Analysis of Balanced 3 Phase Circuit
It is always better to solve the balanced three phase circuits on per
phase basis. When the three phase supply voltage is given without
reference to the line or phase value, then it is the line voltage which
is taken into consideration.
The following steps are given below to solve the balanced three phase circuits.
Step 1 – First of all draw the circuit diagram.
Step 2 – Determine XLP = XL/phase = 2πfL.
Step 3 – Determine XCP = XC/phase = 1/2πfC.
Step 4 – Determine XP = X/ phase = XL – XC
Step 5 – Determine ZP = Z/phase = √R2P + X2P
Step 6 – Determine cosϕ = RP/ZP; the power factor is lagging when XLP > XCP and it is leading when XCP > XLP.
Step 7 – Determine V phase.
For star connection VP = VL/√3 and for delta connection VP = VL
Step 8 – Determine IP = VP/ZP.
Step 9 – Now, determine the line current IL.
For star connection IL = IP and for delta connection IL = √3 IP
Step 10 – Determine the Active, Reactive and Apparent power.
Analysis of Unbalanced 3 Phase Circuit
The analysis of the 3 Phase unbalanced system is slightly difficult, and
the load is connected either as Star or Delta. The topic is discussed
in detail in the article named as Star to Delta and Delta to Star
Conversion.
Interconnection of 3 Phase System
In a three-phase AC generator, there are three windings. Each winding
has two terminals (start and finish). If a separate load is connected
across each phase winding as shown in the figure below, then each phase
supplies as independent load through a pair of wires. Thus, six wires
will be required to connect the load to a generator. This will make the
whole system complicated and costly.
Therefore, in order to reduce the number of line conductors, the three
phase windings of an AC generator are interconnected.The interconnection
of the windings of a three phase system can be done in following two
ways
Star or Wye (Y) connection
Mesh or Delta (Δ) connection.
Connection of 3 Phase Loads in 3 Phase System
As the three phase supply is connected in star and delta connections.
Similarly, the three-phase loads are also connected either as Star
connection or as Delta Connection. The three phase load connected in the
star is shown in the figure below.
The delta connection of three phase loads is shown in the figure below.
The three phase loads may be balanced or unbalanced as discussed above.
If the three loads Z1, Z2 and Z3 have the same magnitude and phase
angle, then the 3 phase load is said to be a balanced load. Under such
connections, all the phase or line currents and all the phase or line
voltages are equal in magnitude.
The electrical system is of two types i.e., the single phase system and
the three phase system. The single phase system has only one phase wire
and one return wire thus it is used for low power transmission. The
three-phase system has three live wire and one returns path. The three
phase system is used for transmitting a large amount of power. The 3
Phase system is divided mainly into two types. One is Balanced three
phase system and another one is unbalanced three phase system.
The balance system in one in which the load are equally distributed in
all the three phases of the system. The magnitude of voltage remains
same in all the three phases and it is separated by an angle of 120º. In
unbalance system the magnitude of voltage in all the three phases
becomes different.
Analysis of Balanced 3 Phase Circuit
It is always better to solve the balanced three phase circuits on per
phase basis. When the three phase supply voltage is given without
reference to the line or phase value, then it is the line voltage which
is taken into consideration.
The following steps are given below to solve the balanced three phase circuits.
Step 1 – First of all draw the circuit diagram.
Step 2 – Determine XLP = XL/phase = 2πfL.
Step 3 – Determine XCP = XC/phase = 1/2πfC.
Step 4 – Determine XP = X/ phase = XL – XC
Step 5 – Determine ZP = Z/phase = √R2P + X2P
Step 6 – Determine cosϕ = RP/ZP; the power factor is lagging when XLP > XCP and it is leading when XCP > XLP.
Step 7 – Determine V phase.
For star connection VP = VL/√3 and for delta connection VP = VL
Step 8 – Determine IP = VP/ZP.
Step 9 – Now, determine the line current IL.
For star connection IL = IP and for delta connection IL = √3 IP
Step 10 – Determine the Active, Reactive and Apparent power.
Analysis of Unbalanced 3 Phase Circuit
The analysis of the 3 Phase unbalanced system is slightly difficult, and
the load is connected either as Star or Delta. The topic is discussed
in detail in the article named as Star to Delta and Delta to Star
Conversion.
Interconnection of 3 Phase System
In a three-phase AC generator, there are three windings. Each winding
has two terminals (start and finish). If a separate load is connected
across each phase winding as shown in the figure below, then each phase
supplies as independent load through a pair of wires. Thus, six wires
will be required to connect the load to a generator. This will make the
whole system complicated and costly.
Therefore, in order to reduce the number of line conductors, the three
phase windings of an AC generator are interconnected.The interconnection
of the windings of a three phase system can be done in following two
ways
Star or Wye (Y) connection
Mesh or Delta (Δ) connection.
Connection of 3 Phase Loads in 3 Phase System
As the three phase supply is connected in star and delta connections.
Similarly, the three-phase loads are also connected either as Star
connection or as Delta Connection. The three phase load connected in the
star is shown in the figure below.
The delta connection of three phase loads is shown in the figure below.
The three phase loads may be balanced or unbalanced as discussed above.
If the three loads Z1, Z2 and Z3 have the same magnitude and phase
angle, then the 3 phase load is said to be a balanced load. Under such
connections, all the phase or line currents and all the phase or line
voltages are equal in magnitude.
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου
Το blog TEO O ΜΑΣΤΟΡΑΣ ουδεμία ευθύνη εκ του νόμου φέρει σχετικά σε άρθρα που αναδημοσιεύονται από διάφορα ιστολόγια. Δημοσιεύονται όλα για την δική σας ενημέρωση.