Cooling the generator, Muffler mounting to generator – Gillette Generators SP-1500 User Manual
Page 16
PAGE 16
F) The exhaust piping system is subject to engine
vibration, so it must be solidly installed to reduce
potential for pipe cracks or breakage.
G) It is very important to discharge exhaust gasses
away from the engine and out of the generator
building. If these gasses remain in the engine
cylinders, poor engine performance and eventual
engine damage may result. This condition usually
results from excessive back-pressure, which can
result from:
1) Exhaust pipe diameter is too small or exhaust
system is too long.
2) Excessive amount of bends in exhaust pipe run.
3) Obstructions (old birds nest, bees, insects, etc.)
in the exhaust system.
All three items are examples that will cause back
pressure that MUST NOT EXCEED 20”/WATER
COLUMN.
Models SP-200 thru SP-620 has either residential or
Critical grade muffler factory mounted to the engine
pipe manifold. * Models SP-800 thru SP-1500 are
equipped with loose catalytic converters
(conforming to EPA exhaust emissions standards),
shipped loose in a separate shipping box, along with
open generator set. These catalytic converters are
heavy and will require separate support structure for
the exhaust system. Do not try to install these
catalytic converters with only pipe connections on
both ends. Special, gasket flange connections must
be used to connect exhaust piping to catalytic
converter. Consult factory if installation questions
arise.
COOLING THE GENERATOR
This manual explains the use of engine mounted
radiators, as the only cooling method used for
GILLETTE generators. Environmental issues require
cleaner burning engine. Engine manufacturers have
raised engine operating temperatures in order to
reduce exhaust emissions and improve fuel
economy. Today’s engines run on the borderline of
overheating, with in-cylinder temperatures close to
2000º.
GENERATOR
MODEL
PIPE
SIZE
COWL
MODEL
MUFFLER DESCRIPTION
NET
WEIGHT
LBS.
SP-200
SP-250
SP-300
2’
CR-2
RESIDENTIAL GRADE
15
CC-2
CRITICAL GRADE
19
SP-410
SP-520
SP-620
2
½
”
CR-2
½
”
RESIDENTIAL GRADE
20
CC-2
½
”
CRITICAL GRADE
32
SP-8005N *
SP-960 *
3”
CR-3
RESIDENTIAL GRADE
32
CC-3
CRITICAL GRADE
52
SP-1200 *
SP-1500 *
3
½
”
CR-3
½
”
RESIDENTIAL GRADE
38
CC-3
½
”
CRITICAL GRADE
63
MUFFLER MOUNTING TO GENERATOR
GILLETTE uses a 50/50 mix of glycol/di-ionized
water. When replacing coolant in radiator DO NOT
USE a 50% glycol and 50% tap water. Tap water
contains minerals, dissolved oxygen, and chorine,
which will cause scaling and corrosion in the engine.
Always use a mixture of glycol and de-ionized water
or distilled water, never use tap water. Radiators of
today’s design are extremely fragile and light
weight, containing smaller cooling tubes and ,more
cooling fins, so it has become easier to clog radiators
with corrosive coolants. GILLETTE, the radiator
manufacturer, and engine block manufacture will
decline warranty on clogged radiator and engine
block problems when it is known that tap water is
used rather than distilled water.
When coolant system is drained and fresh coolant is
added, it’s best to use a hydrometer for testing the
value of antifreeze mixture. A correct 50/50 mix
allows freeze protection to –34º F and boil-over
protection to 265º F.
COOLING THE GENERATOR AND
ENGINE THAT IS MOUNTED IN A
GENERATOR ROOM
Whenever an open (no housing) generator set is
installed inside a room, in a building the radiator
should be ducted outside the room. See Figure 5,
page 14.
The most common method of generator set cooling,
is that of a generator mounted radiator. The major
components are:
A) Engine driven blower fan.
B) Circulating coolant pump
C) Cooling radiator.
D) Thermostat.
The blower fan pulls cooling air across the radiator
coils. The coolant pump circulates coolant through
the engine until it reaches operating temperature.
The engine thermostat open and allows coolant to
GENERATOR
MODEL
GALLONS
LITERS
SP-200
SP-250
SP-300
3
11.4
SP-410
SP-520
SP-620
5.7
21.6
SP-8005N
SP-960
7
26.5
SP-1200
7
26.5
SP-1500
8
26.5
RADIATOR COOLANT CAPACITY
(INCLUDING ENGINE BLOCK)