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Understanding Generators
Generators are great way to add comfort
and security during a power outage. During times of inclement
weather and other interruptions, you want to be prepared
for a possible power outage.
There are three different ways in which
your generator can bring power to your house.
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Plug in loads directly, using extension
cords if necessary. This may be the simplest of the
three options. This method is used when there is no
electrical wiring present or in standby situations.
With this method, electrical loads are removed from
your wall outlets and plugged into your portable generator
by means of extension cords. With portable generators,
lights, pumps and small appliances can be plugged directly
into outlets. For safety purposes, look for the Underwriters
Laboratories-listed, three-prong extension cords. Make
sure to plug the appliance into the extension cord first,
and then plug the extension cord into the generator
outlet.
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You also have the option of using a
circuit transfer switch, designed primarily for portable
generators. With is method, you only hookup the circuits
that you think you will need in an emergency. These
panels hook up to your main breaker panel as a sub-panel.
Depending on the capacity of your generator, a circuit
transfer switch allows you to run selected circuits
(6 or 10) for appliances such as a refrigerator, furnace,
well pump sump pump, television, and computer, printer
or lighting circuit during a power outage. The transfer
switch breaks the connection from one source to another,
eliminating the chance of the power coming together.
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A large transfer switch works in the
same ways as a circuit transfer switch, except it allows
you to switch the whole house over. They are available
in manual (MTS) and automatic (ATS) transfer switch
options. They are costly to install, but essential for
protecting your home. With a transfer switch, when power
is restored with an improper connection, electrical
currents from the generator can cause a short circuit
with your utility line. This can often lead to a fire
in the electrical system.
With automatic transfer switches, when
utility power is interrupted, the problem is immediately
sensed and the generator is signaled to start running. The
ATS will know when the generator is running at the correct
speed, and at this point it will shut off the utility power
supply and let the generator take over. The ATS will monitor
the entire process from start to end.
Transfer switches are required by the building
code electrical codes in most areas and must be installed
by a qualified electrician.
Generator Upgrade
If you are thinking of upgrading your generated
power unit, you must consider the type of generator you
need, determine your wattage requirements, and select appropriate
features.
To begin this process, you must first consider
what items you are planning to have run on your generator
and what their power requirements are. Generators are rated
in terms of the amount of power they can produce and are
measured in Watts or Kilowatts. Watts are units of electrical
power (Volts x Amps = Watts.)
Some household items list their power requirement
in Watts; typically light bulbs and small appliances. Others
only list Amperes (A or Amps). Most household electrical
loads run on 120 Volts, but large heating and cooling appliances
such as fans and well pumps will sometimes use 240 Volts.
In order to determine what size generator
you need to upgrade to, you will need to add up the wattage
required by each electrical load that you plan to use. A
load is the amount of electricity required to run an appliance.
Make sure to include the starting power required by the
largest motor and any others that will be started at the
same time. If a generator is too small for its load, the
voltage will drop. A 5,000-7,500 running watt generator
will run an average home's essential appliances.
Cost will vary depending on size, reliability
and special features. Also, cost will depend on whether
you are interested in a portable standby system or a permanently
installed standby system.
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($400-$600) Small portable units. Less
than 2 kW
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($500-1,500) Midsize portable units.
4-10 kW
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($2,000-$5,000) Large trailer-mount
units without engines. 15-60 kW
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($2,000-$5,000) Large trailer-mount.
10 kW or more
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($4,000-$12,000) ' Large standby units
designed for permanent installation. 5-40 kW or more
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(5,000-20,000) Permanent generators
for residential use. 5-10 kW
Special features can make operating your
generator extremely convenient. Features can be divided
into Engine Features and Generator Features.
Generator Power
Generators can be useful during long power
outages by providing power to run essential equipment, such
as furnaces, lights, security systems, medical equipment,
computers, refrigerators, freezers, lighting, water pumps
and sump pumps. They are also useful for providing power
where it is inconvenient, costly, or impossible to bring
commercially produced power.
For residential use, generators can be
installed for temporary or for permanent use. They can be
run by natural gas, LP propane, or diesel. All types must
be installed by a licensed contractor. Installations must
meet the National Electrical Code. There are many important
safety issues that need to be taken into account before
and after installation, which includes getting a generator
with enough power.
It is extremely important to determine
your wattage requirements. For a general idea, 1000w or
less can power lights, clocks, battery chargers, radios
and other small appliances. 1500w or more can also power
a computer, small freezer or refrigerator. 3500w 120v can
power almost any plug-connected appliance with a standard
120V plug. 5000w 240v or more will handle nearly all the
loads of a typical household. Make sure to never connect
loads to the generator that are too large for its capacity.
Call Orange County Construction today for your free estimate.
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