As seen previously in connection of three single phase transformers that if one of the transformers is unable to operate then the supply to the load can be continued with the remaining tow transformers at the cost of reduced efficiency. The connection that obtained is called V-V connection or open delta connection.
Consider the Fig. 1 in which 3 phase supply is connected to the
primaries. At the secondary side three equal three phase voltages will
be available on no load.
Fig. 1 |
The voltages are shown on phasor diagram. The connection is used when
the three phase load is very very small to warrant the installation of
full three phase transformer.
If one of the transformers fails in ∆ - ∆ bank and if it is required to
continue the supply eventhough at reduced capacity until the
transformer which is removed from the bank is repaired or a new one is
installed then this type of connection is most suitable.
When it is anticipated that in future the load increase, then it
requires closing of open delta. In such cases open delta connection is
preferred.
Key point :
It can be noted here that the removal of one of the transformers will
not give the total load carried by V - V bank as tow third of the
capacity of ∆ - ∆ bank.
The load that can be carried by V - V bank is only 57.7% of it. it can be proved as follows.
Fig. 2(a) |
Fig. 2(b) |
It can be seen from the Fig. 2(a)
∆ - ∆ capacity = √3 VL IL = √3 VL (√3 Iph )
∆ - ∆ capacity = 3 VL Iph ............(i)
It can also be noted from the Fig. 2(b) that the secondary line current IL is equal to the phase current Iph.
V- V capacity = √3 VL IL = √3 VL Iph ...............(ii)
Thus the three phase load that can be carried without exceeding
the ratings of the transformers is 57.5 percent of the original load.
Hence it is not 66.7 % which was expected otherwise.
The reduction in the rating can be calculated as {(66.67 - 57.735)/(57.735)}x 100 = 15.476
Suppose that we consider three transformers connected in ∆ - ∆ fashion
and supplying their rated load. Now one transformer is removed then each
of the remaining tow transformers will be overloaded. The overload on
each transformer will be given as,
Key point : This overload
can be carried temporarily if provision is made to reduce the load
otherwise overheating and breakdown of the remaining tow transformers
would take place.
The limitation with V -V connection are given below :
- The average p.f. at which V- V bank is operating is less than that with the load . This power p.f is 86.6 % of the balanced load p.f.
- The tow transformers in V -V bank operate at different power factor except for balanced unity p.f .load.
- The terminals voltages available on the secondary side become unbalanced. This may happen eventhough load is perfectly balanced.
Thus in summary we can say
that if tow transformers are connected in V - V fashion and are loaded
to rated capacity and one transformer is added to increase the total
capacity by √3 or 173.2 %. Thus the increase in capacity is 73.2 % when
converting from a V - V system to a ∆-∆ system.
With a bank of tow single phase transformers connected in V-V fashion
supplying a balanced 3 phase load with cosΦ asp.f., one of the
transformer operate at a p.f. of cos (30-Φ) and other at cos (30+Φ). The
powers of tow transformers are given by,
P1 = KVA cos (30-Φ)P2 = KVA cos (30+Φ)
Example :
A ∆ -∆ bank consisting of
three 40 KVA, 2300/230 V transformers supplies a load of 80 KVA. If one
transformer is removed, find for the resulting V - V connection
i) KVA load carried by each transformerii) percent of rated load carried by each transformer
iii) total KVA rating of the V - V bank
iv) ratio of the V - V bank to ∆ - ∆ bank transformer ratings
v) percent increase in load on each transformer when bank is converted into V - V bank.
Solution
i) KVA load carried by each of the transformer is calculated as,
(Total KVA load in V - V bank)/(KVA load carried per transformer) = √3
KVA load carried per transformer = (Total KVA load)/√3 = 80/ √3 = 46.18 KVA
ii) Percent of rated load carried by each transformer = (KVA / transformer)/(KVA rating / transformer)
= 46.18/40 = 115.45%
iii) KVA rating of V - V bank = (3 x 40) x 0.577 = 120 x 0.577 = 69.24
iv) (V -V rating)/(∆ - ∆ rating) = 69.24/120 = 0.577 or 57.7%
v) Load supplied by each transformer in ∆ - ∆ bank = 80/3 = 26.66 KVA
% increase in load supplied by each KVA load/transformer in transformer
= (V- V bank)/(KVA load / transformer in ∆ - ∆ bank) = 46.18 / 26.66 = 1.732 or 173.2%
3 phase transformer Security Using Small Operator Included system Venture Description: Generally most of the transformers are suffering from the environmental stress, conditions and line in currents. Because of the greater...
ReplyDeleteInformative post,i think transformer manufacturers use these strategies that you described.
ReplyDelete