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Boiler
Installation and Setup
Installation
It
is not within the scope of this
document to provide installation
instructions. These should
follow the design specifications
of the Architect, Engineer, or
Contractor. Good engineering
practices must prevail.
The
equipment must be installed to
conform to applicable local,
state, and National Codes.
Compliance with Codes will help
ensure a safe and dependable
installation as the Codes have
been formulated to safeguard
life and property. Failure to
comply with established Codes
and regulations may necessitate
costly modification and
reconstruction.
The
proper authorities should been
consulted before preparation for
a permanent installation is
started. Application should be
made immediately for all permits
required by law for construction
and installation.
The
following generalizations are
intended for assistance and do
not supplant any Codes or
construction criteria.
Handling
Necessary
lifting and jacking attachments
are an integral part of the
equipment. When the components
are received at the plant, they
must be inspected for signs of
damage prior to accepting the
shipment or releasing the
shipper. All boxes and cartons
should be opened carefully and
checked against the packing
slip. In case of damage or
shortage, immediately notify the
carrier and file a claim. The
equipment must be inspected
during each phase of
installation so that if any
damage has occurred, repairs can
be processed without delay.
When
the contractor begins
installation, his experience and
discretion prevail and it must
be clear that he is totally
responsible for the proper care
of the unit as it is moved into
position.
Setting
the System
The
layout of the system has been
designed with sufficient access
for maintenance and inspection
of all components and piping.
The equipment must be set in
level positions. Client's
foundations must be designed
with adequate load bearing
characteristics to handle the
weight of the equipment, filled
with water, and applicable snow,
wind, and seismic loads. All
applicable codes relating to
minimum clearances to
combustible materials must be
observed.
Welded
Flanges
If
the boiler is designed for
operation with negative flue gas
pressure, then all steel mating
flanges may be designed to be
welded rather than be bolted.
The following steps are
suggestions as aids in assembly.
1.
Bring components near
enough to each other so
that the flanges are in
close alignment.
2.
Holes in the corners of
the flanges are provided
to insert pins or bolts
for aligning the
flanges.
3.
Adjust alignment if
necessary and bring the
flanges together so they
are just touching.
4.
Weld the perimeter of
the flange-to-flange
joint with a 3/16"
(min.) to ¼"
fillet (seal) weld.
Variations in camber,
leg length, etc. are
inconsequential. Erector
must fill any and all
gaps with weld metal. A
good choice of standards
is E7018.
5.
This weld is not only a
structural weld, but
also a seal weld to
prevent flue gas
leakage; therefore, a
sound weld is required.
This weld does not
require an ASME
Code-Qualified welder,
since this is not a code
item.
6.
Remove alignment devices
and plug weld corner
holes to preclude
leaking and the joint is
complete.
7.
Should removal of any
welded flange component
be required, grinding,
torch cutting, or
air-arc gouging can
remove the weld.
Pre-Service
Inspection
All
piping and valves must be
installed in accordance with
good engineering practices.
Suitable strength piping and
valves are to be used. All drain
and discharge piping must be
piped to a safe point of
discharge. The discharge end of
the piping should not be near
platforms or elevated walkways.
The
discharge piping from the safety
valves and the method of
connecting the piping is
especially important. Safety
valves should be inspected
externally to see that they are
free to operate and that their
vent and drain piping are open
to atmosphere and free to expand
without imposing strain upon the
safety valve body. Make sure
that any gags used during
testing are removed. Verify that
the discharge piping from the
safety valves, vents, and drains
are piped to a safe point
of discharge.
Electrical
wiring must conform to
applicable electrical codes and
proper wiring used. The
necessary switches, feed boxes,
circuit breakers, etc. must be
installed and operable.
All
auxiliary equipment should be
installed in accordance with the
recommendations of the
respective manufacturers. Fan
wheels, bearings, couplings, and
shaft alignment, should be
checked and aligned. If the
bases of the auxiliary equipment
are grouted, the alignment
should be checked before
grouting or doweling and
rechecked afterwards.
Lubrication of the equipment
should be verified in accordance
with the manufacturer
recommendations.
Aisles,
ladders, and stairs should be
completed and accessible for the
convenience and safety of the
operation personnel. All
obstructions such as
scaffolding, refuse, tools, etc.
must be removed from ducts and
platforms. Insulation of piping
and ductwork should be done in
accordance with accepted
practices or project
specifications.
When
installation of the unit is
completed but before operation,
the entire system should be
inspected. The following is a
minimum checklist to aid the
operator in checking the entire
system prior to start up.
External
_____
Check seal welding of casings.
_____
Check that the structural
supports have been installed.
_____
Check the nozzle alignment for
bent or damaged nozzles.
_____
Check refractory and insulation
for damage.
Piping
_____
Check that all the valves are
oriented in the proper flow
direction.
_____
Check linkages on all regulating
devices, valves and dampers.
_____
Check that all metering devices
have been installed in
accordance with recommendations.
_____
Check all piping for leakage
during hydrostatic test.
_____
Check with Owner's water
treatment consultant to assure
that feedwater and chemical feed
piping
arrangement is appropriate.
_____
Check that all flange bolting
has been torqued to proper
levels.
Vent
and Drain Piping
_____
Check all drain and vent lines
for obstructions.
_____
Check that all drain and vent
lines terminate away from
platforms and walkways.
Water
Column
_____
Check all connecting piping
joints for leakage.
_____
Check all safety and alarm
system wiring.
_____
Check isolation valves (if any)
to be sure they are locked open.
Safety
Valves
_____
Check for blockage on the
outlet.
_____
Check that all vent pipe
supports have been installed in
accordance with
recommendations.
_____
Verify all valves for
manufacturer's settings (set
pressures as shown on valve
tag).
Others
_____
Check proper alignment on all
ducting and expansion joints.
_____
Check all sliding pad
installations to ensure proper
movement.
_____
Check that all temporary
shipping supports and temporary
bolting has been removed.
(Normally
these temporary items are
painted with yellow or red
paint.)
_____
Remove any structural timber
from gas passages. Please note
that some wood, tape, etc.
can
remain in the gas passages, to
be burned out during firing of
the unit.
_____
Check that all temporary
shipping gaskets, manways, and
handholes, have been properly
removed.
The temporary gaskets allow
internal inspections of the
equipment prior to
operation.
_____
Check that all normal service
gaskets, for the manways,
handholes, ducts, and pipe
flanges,
have been installed and have
been properly torqued.
Final
Preparation for Service
When
the inspection is completed and
all problems have been
corrected, then the system can
be subjected to its final
testing before pre-commissioning
and start-up.
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