4
typical designs for connecting generator sets to low voltage system
Connection of generating sets
to the LV system
Many different system designs are possible,
but for maximum reliability, systems are usually configured so that the
generator set (s) are connected at low voltage. with the
minimum number of transformers and circuit breakers between the generator set
and the load to be served.
4 typical designs for connecting the generator
sets to the low voltage system (photo credit: Cummins)
Local laws often require that emergency loads
be electrically separated from non-urgent and privileged loads in service, so
that overloads result in the elimination of non-emergency loads, as they
provide the greatest reliability of service to the most critical loads in the
world. system.
In most cases, a neutral
conductor will be required. Since many loads and
their controls at low voltage will be single phase, requiring a return
conductor. Particular attention should be paid to the need for grounding
and neutral switching of the system. This design could also be used for a
small main power application.
Let's see the four most common designs for
connecting generator sets to low voltage systems:
1.
Generator set serving common loads
2.
Several generators serving
common loads
3.
Single generator set backup
applications
4.
Several generators, several ATS
applications
1.
Generator set serving common loads
Generator sets are generally equipped with a
main circuit breaker mounted on the generator set and service to the loads is
provided by a separate distribution panel, as shown in Figure 1.
Generators should have overcurrent protection
which can come in various forms, including a circuit breaker mounted in the
distribution panel as shown in Figure 1.
Over-current protection is
usually required for generator sets, but short circuit protection is
not. For example, it is not necessary to protect the
short circuit between the generator set and the main circuit breaker.
The importance of this is that the protection
can be located on the generator set or in a remote panel. If the generator
set breaker is omitted, a disconnect switch may still be required by code on
the generator set, in order to provide a point of isolation. Refer to
local codes and standards for generator disconnection or isolation requirements.
2.
Multiple generators set serving common loads
Figure 2 shows a similar application
with groups
in parallel replacing the single generator. In this situation, the generator sets can be specifically selected to be of multiple
sizes to help minimize fuel consumption at a site by closely matching the
capacity of the operating equipment to the loads in the system.
The use of generators of different sizes may
require specific system grounding arrangements.
3.
Emergency applications for single generator set
Figure 3 shows a typical example diagram of
single assembly power transfer for low voltage utility
power, as can be applied to many households, commercial and industrial
applications.
An Automatic Transfer Switch (ATS), which may
use contactors, circuit breakers, or a dedicated transfer module, is used
to transfer
electrical power at the utility load to the generator.
Three-pole generator and circuit breakers or
fused switches are often used to limit the level of fault present on the
ATS. The ATS can be a 3-pole (solid, unswitched neutral) or 4-pole
(switched neutral) device. Generally, two-pole ATS equipment is used in
applications where it is necessary to isolate the supply neutral from the
generator neutral.
The choice of neutral switching
equipment can be related either to safety considerations or if the system is
required to incorporate earth fault detection devices. The
utility provider should be consulted to confirm the type of earthing system
(earthing) used in the utility distribution system supplying a site and to
verify that the grounding arrangements offered at the site of the client are
appropriate.
Power transfer switches and generator sets should not be
connected to a utility before this review (and utility
approval, if required by local law).
Note that some local codes and standards
require the use of multiple transfer switches due to the need to isolate
emergency loads from standby loads.
In these cases, the transfer
switches may be located on the load side of the utility distribution panel,
and the generator set may also require a distribution panel when the feeder
circuit breakers for ATS equipment cannot be mounted on the generator set.
4.
Several generators, several ATS applications
Larger systems can use multiple ATS
units and protection located near loads. These are
often considered more reliable than those using a single large ATS, as
distribution system failures are more likely to occur on the load side of a
distribution system, and using multiple switches would result in disruption.
lesser of the system when a fault occurs.
Figure 4 illustrates a design
suitable for large installations, in particular when
several buildings are served by the same generator installation.
In this system, three ATS units are used,
powered by a common utility and generator system. This scheme can be
further adapted to operate from separate utility systems.
Four-pole switching devices are
commonly used with three-pole generators and utility or fused switches. Each
ATS has automatic utility failure detection and will send a start signal to the
generator system and switch to generator power when the generator is within an
acceptable tolerance.
This scheme allows a versatile generation
system to be built and can be easily adapted to multiple sets.
Cummins
250kVA Generator Set - Introduction and Testing
Load
test of a 500 kVA generator
A follow-up to my August 2011 generator test
video. Every six months (unless there is a power failure in the meantime),
we perform a load test on our main standby generator in the office. Rather
than hiring a dummy load, we just use the electrical equipment in the office itself,
which also allows us to identify any “easy trigger” breakers in the building.
We don't do a full load test, but a
combination of all the lighting, air conditioning, and the computer server room
gives us around 150kW, or almost 40% load.
500KVA
Cold Start Diesel Generator Set
500KVA Cummins Diesel Generator cold start /
Backfire, stayed up for a while and the temperature was -20 ° C. The controller
stopped him after he straightened up at the end.
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