The requirement of backup generators for buildings and their sizing is a much debated topic. It is a compromise between the economics of cost and the need for continued availability of power. The general tendency is to size the generator on the basis of experience of smaller buildings where it is provided as an afterthought. This makes it difficult for the MEP team to justify the size requirement for the generator.
In modern high
rise buildings generator backup is required for the following:
1.
Lifts.
2.
Water
supply pumps.
3.
Sewage
treatment plant.
4.
Fire
pump; if the backup pump is also electrical.
5.
Emergency
lighting.
6.
Any
other loads deemed necessary.
The loads in the
list above can be segregated into two types,
Essential loads – These loads do not need immediate power backup, but
require power in case of extended power failure.
Life safety systems – These systems need to have immediate power backup,
extended power failure can have serious effect.
Of the above items
4 and 5 are life safety services.
The straight forward
method of sizing a generator can be done in the following steps
1.
Make a
list of all the equipments to be fed by the generator with the electrical loads
and demand load for each item.
2.
Segregate
the load into two columns for the following two conditions
·
Power
failure condition.
·
Fire
condition
3.
Find
the higher load of the two.
The generator is
to be sized to cater to the larger load.
A sample table
shown below can help in making the decision regarding the sizing as well as the
basis of the decision for record. The loads are listed in column 3 and they are
copied to columns 4 or 5 as per the type of load.
Sl.No
|
Load
|
kW
|
Essential
|
Life Safety
|
1
|
Lift -1
|
15
|
15
|
|
2
|
Lift -2
|
15
|
15
|
|
3
|
Lift - 3 - Fire lift
|
15
|
15
|
15
|
4
|
Service lift
|
20
|
20
|
|
5
|
Water supply
|
|||
6
|
Domestic Water Pump
|
10
|
10
|
|
7
|
Flushing water pump
|
7.5
|
7.5
|
|
8
|
Sewage treatment plant
|
45
|
45
|
|
9
|
Fire pumps
|
70
|
70
|
|
10
|
Jockey pump
|
5
|
5
|
|
11
|
Emergency lighting
|
5
|
5
|
5
|
Total
|
137.5
|
90
|
In the case above, the
load on the generator will be 137.5 kW.
So the next largest size
of generator should be chosen.
Hope the same is helpful. Do let me know your comments and suggestions on the method above.
Hope the same is helpful. Do let me know your comments and suggestions on the method above.
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