Carrier Water Dispenser 16DF013 050 User Manual

16DF013-050  
Hermetic Absorption Liquid  
Chiller/Heaters  
Installation Instructions  
SAFETY CONSIDERATIONS  
Absorption liquid chiller/heaters provide safe and reliable  
DO NOT perform any welding or flamecutting to a machine  
service when operated within design specifications. When  
operating this equipment, use good judgment and safety pre-  
cautions to avoid damage to equipment and property or in-  
jury to personnel.  
while it is under a vacuum or pressurized condition.  
NEVER APPLY an open flame or live steam to a refrigerant  
cylinder. Dangerous overpressure can result. When necesary  
to heat a cylinder, use only warm (110 F [43 C]) water.  
Be sure you understand and follow the procedures and safety  
precautions contained in the machine instructions as well as  
those listed in this guide.  
DO NOT REUSE disposable (nonreturnable) cylinders or at-  
tempt to refill them. It is DANGEROUS AND ILLEGAL.  
When cylinder is emptied, bleed off remaining gas pressure,  
loosen the collar and unscrew and discard the valve stem.  
DO NOT INCINERATE.  
DO NOTATTEMPT TO REMOVE fittings, covers, etc., while  
machine is under pressure or while machine is running. DO  
NOT OPERATE or pressurize a machine without all cover  
plates or bolts in place.  
DO NOT USE OXYGEN or air to purge lines, leak test, or  
pressurize a machine. Use nitrogen.  
NEVER EXCEED specified test pressures. For the 16DF ma-  
chine, the maximum pressure is 12 psig (83 kPa). For the  
chilled/hot water and condensing water piping, the maxi-  
mum pressure is stamped on the machine.  
DO NOT climb over a machine. Use platform, catwalk, or  
staging. Follow safe practices when using ladders.  
DO NOT STEP ON machine piping. It might break or bend  
and cause personal injury.  
USE MECHANICAL EQUIPMENT (crane, hoist, etc.) to  
lift or move inspection covers or other heavy components.  
Even if components are light, use such equipment when there  
is a risk of slipping or losing your balance.  
VALVE OFF AND TAG steam, water, or brine lines before  
opening them.  
DO NOT LOOSEN water box cover bolt until the water box  
has been completely drained.  
DO NOT VENT OR DRAIN water boxes containing indus-  
trial brines, liquid, gases, or semisolids without permission  
of your process control group.  
BE AWARE that certain automatic start arrangements can  
engage starters. Open the disconnects ahead of the starters  
in addition to shutting off the machine or pump.  
INVESTIGATE THE CAUSE of flame failure or any other  
safety shutdown before attempting a restart.  
WEAR goggles and suitable protective clothing when han-  
dling lithium bromide, octyl alcohol, inhibitor, lithium hy-  
droxide, and hydrobromic acid. IMMEDIATELY wash any  
spills from the skin with soap and water. IMMEDIATELY  
FLUSH EYES with water and consult a physician.  
DO NOT USE eyebolts or eyebolt holes to rig maching sec-  
tions or the entire assembly.  
DO NOT work on high-voltage equipment unless you are a  
qualified electrician.  
DO NOT WORK ON electrical components, including con-  
trol panels or switches, until you are sure ALL POWER IS  
OFF and no residual voltage can leak from capacitors or solid-  
state components.  
LOCK OPEN AND TAG electrical circuits during servic-  
ing. IF WORK IS INTERRUPTED, confirm that all circuits  
are deenergized before resuming work.  
NEVER DISCONNECT safety devices or bypass electric in-  
terlocks and operate the machine. Also, never operate the  
machine when any safety devices are not adjusted and func-  
tioning normally.  
DO NOT REPEAT unsuccessful ignition attempts or restart  
after flame failure without assurance that post-purge and pre-  
purge have eliminated combustible gas or oil vapors from  
the combustion chamber. DO NOT EVER ATTEMPT IG-  
NITION of a burner if there is shutdown leakage of gas or  
oil through the fuel shutoff valves or from the fuel lines.  
KEEP EYES sufficiently away from sight tubes or burner  
openings, and wear a protective shield or safety glasses when  
viewing a burner flame.  
USE only repaired or replacement parts that meet the code  
requirements of the original equipment.  
DO NOTALLOW UNAUTHORIZED PERSONS to tamper  
with burner equipment or machine safeties, or to make ma-  
jor repairs.  
DO NOT syphon lithium bromide or any other chemical by  
mouth.  
PERIODICALLY INSPECT all valves, fittings, piping, and  
relief devices for corrosion, rust, leaks, or damage.  
BE SURE all hydrogen has been exhausted before cutting  
into pure chambers. Hydrogen mixed with air can explode  
when ignited.  
PROVIDE A DRAIN connection in the vent line near each  
pressure relief device to prevent a build-up of condensate or  
rain water.  
WHEN FLAMECUTTING OR WELDING on an absorp-  
tion machine, some noxious fumes may be produced. Ven-  
tilate the area thoroughly to avoid breathing concentrated fumes.  
IMMEDIATELY wipe or flush the floor if lithium bromide  
or octyl alcohol is spilled on it.  
BE SURE combustion air inlets to the equipment room are  
open and clear of any blockage.  
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.  
Book 2  
PC 211  
Catalog No. 531-602  
Printed in U.S.A.  
Form 16DF-1SI  
Pg 1  
3-92  
Replaces: New  
Tab 5b  
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2
3
4
1
11  
10  
9
8
7
6
5
1
2
3
4
5
6
Condenser  
7
8
Burner Control Panel  
Solution Heat Exchanger  
Chiller/Heater Control Panel  
Absorber  
Low-Stage Generator  
Flue Stack  
9
Separator  
10  
11  
High-Stage Generator  
Evaporator  
Burner  
Fig. 1 — Machine Components (Front View)  
RIGGING AND POSITIONING  
Rigging procedures vary depending on whether the ma-  
chine is shipped in one or 2 pieces.  
Rigging 2-Piece Units  
PREPARATION — Two-piece units must be prepared for  
installation before they can be rigged.  
1. Open auxiliary evacuation valves to relieve pressure in  
absorber-evaporator shell.  
2. Open shipping valve on generator assembly to relieve  
pressure.  
Lifting machine from points other than those specified  
may result in serious damage and personal injury. Rig-  
ging equipment and procedure must be adequate for  
machine weights and sizes. Refer to Table 1 for  
machine weights, Fig. 2 and Tables 2 and 3 for overall  
dimensions.  
3. Remove all piping end plates by flamecutting the end plate  
and weld flange around their outer diameter. Cut these  
pieces as shown in Fig. 5 for proper reconnection.  
4. Grind the cut pieces smooth for a close fit when the ma-  
chine pieces are assembled.  
Carefully position cables on machine to avoid damage to  
small piping, controls, or wiring.  
Keep shell horizontal when lifting or lowering so all legs  
contact the floor at the same time.  
To avoid contaminates and debris getting into chiller,  
do not leave machine open any longer than necessary.  
Rigging One-Piece Units — Lift entire assembly with  
cable hooks and shackles connected to the 3 lifting holes on  
the absorber-evaporator assembly (lower part of machine),  
and with the center balance point location, as shown in  
Fig. 3 and 4. Lifting from other holes or locations can dam-  
age the machine. See Mounting the Burner section for burner  
rigging instructions.  
Do not remove any stock from pipe ends. Do not get  
slag inside machine while flamecu<tting.  
3
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Fig. 2 — 16DF Views (Typical)  
Lifting Holes  
Fig. 3 — Rigging One-Piece Units, Typical, Top View  
4
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Fig. 4 — Rigging One-Piece Units, Typical, Side and End Views  
Table 1 — Rigging Weights  
English  
SHIPPING WEIGHT (lb)  
Absorber-  
Evaporator  
High-  
OPERATING  
WEIGHT  
(lb)  
UNIT  
16DF  
Temperature  
Total  
Weight  
Low-Temperature Generator-  
Generator  
Assembly  
Separator  
Assembly  
013*  
015*  
018*  
020*  
13,230  
13,450  
15,220  
15,440  
17,200  
17,420  
20,290  
20,510  
023  
025  
028  
032  
036  
040  
045  
050  
14,560  
14,780  
16,100  
16,540  
18,530  
18,970  
21,610  
22,050  
3,970  
3,970  
8,600  
8,600  
8,820  
8,820  
10,150  
10,150  
18,530  
18,750  
24,700  
25,140  
27,350  
27,790  
31,760  
32,200  
24,920  
25,140  
32,640  
33,080  
37,050  
37,490  
43,660  
44,100  
SI  
SHIPPING WEIGHT (kg)  
Absorber-  
Evaporator  
High-  
OPERATING  
WEIGHT  
(kg)  
UNIT  
16DF  
Temperature  
Total  
Weight  
Low-Temperature Generator  
Generator  
Assembly  
Separator  
Assembly  
Fig. 5 — Flamecutting and Welding Detail  
013*  
015*  
018*  
020*  
6 000  
6 100  
6 900  
7 000  
7 800  
7 900  
9 200  
9 300  
023  
025  
028  
032  
036  
040  
045  
050  
6 600  
6 700  
7 300  
7 500  
8 400  
8 600  
9 800  
10 000  
1800  
1800  
3900  
3900  
4000  
4000  
4600  
4600  
8 400  
8 500  
11 300  
11 400  
14 800  
15 000  
16 800  
17 000  
19 800  
20 000  
11 200  
11 400  
12 400  
12 600  
14 400  
14 600  
*16 DF013-020 are shipped in one section as standard.  
5
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Table 2 — Overall Dimensions, 16DF013-025  
English  
OVERALL DIMENSIONS (ft-in.)  
UNIT  
16DF  
013  
015  
018  
020  
023  
025  
LENGTH  
WIDTH  
HEIGHT  
11-10  
6- 7  
7- 9  
11-10  
6- 7  
7- 9  
11-10  
7- 8  
7- 9  
11-10  
7- 8  
7- 9  
11-10  
8- 3  
8- 3  
11-10  
8- 3  
8- 3  
SI  
OVERALL DIMENSIONS (mm)  
UNIT  
16DF  
013  
015  
018  
020  
023  
025  
LENGTH  
WIDTH  
HEIGHT  
3600  
1995  
2350  
3600  
1995  
2350  
3600  
2330  
2350  
3600  
2330  
2350  
3600  
2520  
2500  
3600  
2520  
2500  
Table 3 — Overall Dimensions, 16DF028-050  
English  
Absorber-Evaporator Low-Temperature Generator Assembly  
OVERALL DIMENSIONS (ft-in.)  
UNIT  
16DF  
028  
032  
036  
040  
045  
050  
LENGTH  
WIDTH  
HEIGHT  
15-4  
9-4  
8-6  
15-4  
9-4  
8-6  
15- 4  
9-10  
8-10  
15- 4  
9-10  
8-10  
15-4  
10-6  
9-8  
15-4  
10-6  
9-8  
SI  
OVERALL DIMENSIONS (mm)  
UNIT  
16DF  
028  
032  
036  
040  
045  
050  
LENGTH  
WIDTH  
HEIGHT  
4660  
2850  
2595  
4660  
2850  
2595  
4660  
3000  
2695  
4660  
3000  
2695  
4660  
3200  
2950  
4660  
3200  
2950  
RIGGING — The 2 pieces are the high-temperature generator-  
separator assembly and absorber-evaporator low-temperature  
generator assembly (Fig. 6).  
1. Lift each assembly with cable, hooks, and shackles con-  
nected to the 4 lifting holes on each assembly. Lifting  
from other holes or locations can damage the machine.  
High-Temperature Generator-Separator Assembly  
Fig. 6 — Rigging 2-Piece Units, Sizes 16DF023-050  
2. Position and level the absorber-evaporator-assembly first.  
See Position and Level the Equipment section.  
3. Move the generator-separator assembly into place beside  
the absorber-evaporator assembly.  
4. Align connecting piping for generator-separator and absorber-  
evaporator assemblies. Make sure serial numbers corre-  
spond on both assemblies.  
5. See Mounting the Burner section for burner rigging  
instructions.  
Position and Level the Equipment — Isolation  
pads are not necessary for most installations. However, for  
cases where isolation pads are required, refer to Fig. 7 for  
typical installation.  
Both 16DF machine assemblies must be level within  
1
4  
in. per 20 ft (6.3 mm per 6 m), both lengthwise and di-  
agonally. To level the machine, proceed as follows:  
1. Completely fill 50-ft (15 m) length of clear flexible tub-  
ing with water.  
2. Use water gage and leveling reference points stamped on  
tube sheets to level machine.  
3. Level machine with shims until requirements are met. If  
isolation assembly is used, shim under the soleplate. Be  
sure matching piping is in alignment.  
NOTES:  
1. Be sure only the machine base is on the isolation pad at each  
corner.  
2. Shim under soleplate to level machine.  
Fig. 7 — Typical Isolation Assembly  
6
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MACHINE ASSEMBLY  
Machine Leak Test — All field-welded joints on the  
chiller must be leak tested prior to starting the machine. Leak  
test as follows:  
No assembly is required for one-piece units (16DF013-  
020) other than installing the burner. See Mounting the Burner  
section.  
1. Close all external service valves.  
2. If machine is under vacuum, bring to atmospheric pres-  
sure with dry air or dry nitrogen.  
3. Pressurize to 6 psig (40 kPa) with tracer gas. Charge through  
auxiliary evacuation valve.  
4. Increase the machine pressure to 12 psig (80 kPa) with  
dry air or dry nitrogen.  
Assemble 2-Piece Units (Fig. 8 and 9)  
1. Weld piping connections and make sure weld connec-  
tions are vacuum leak tight.  
2. Install the burner. See Mounting the Burner section.  
Exceeding 12 psi (80 kPa) can cause severe damage  
to chiller.  
5. Leak test all field-welded joints with electronic leak de-  
tectors or equivalent. If machine has acquired a leak in  
shipment or rigging, all joints must be leak tested.  
6. After leak testing has been completed and leaks have been  
corrected, release the machine pressure.  
Machine Evacuation — Removal of non-condensables  
from the machine is required after machine has been opened.  
To evacuate the machine, proceed as follows:  
1. Connect auxiliary evacuation device (Fig. 10) to auxil-  
iary evacuation valve. Be sure that the line is as short as  
possible and that line size is not smaller than connection  
to auxiliary device. A check valve or oil trap must be used  
on the suction lines to keep vacuum pump oil out of the  
chiller. Be sure that all connections are vacuum tight.  
2. Close external service valve(s).  
3. Start auxiliary evacuation device. Open auxiliary evacu-  
ation valve. Reduce machine pressure to one in. of mer-  
cury absolute or lower. Check pressure with absolute pressure  
gage at refrigerant pump service valve.  
Fig. 8 — Machine Piping Assembly  
Diagram, End View  
Fig. 9 — Machine Piping Assembly Diagram, Side View  
7
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4. Close auxiliary evacuation valve and shut off auxiliary  
evacuation device.  
5. Note and record absolute pressure gage reading.  
Frontplate and Burner Installation To prevent leak-  
age of high-temperature combustion gases with this type of  
forced draft burner, a high-temperature insulating gasket or  
1/2-in. Fiberfrax® rope seal is required between the genera-  
tor and the front plate assembly, and between the front plate  
and the burner assembly.  
6. Coat all machine field-welded joints with weld sealant.  
Either the gasket or the rope may be provided with the  
burner, depending on manufacturer’s availability.  
When using high-temperature insulating rope, it must  
be wrapped around the flange circumference INSIDE of  
the mounting studs or bolt holes, with overlapping ends,  
to provide a complete gas tight seal. Wrapping the rope  
around the outside of the studs or bolt holes could allow  
high-temperature gas leakage through the holes in the  
attached plates.Use either gasket cement or masking tape  
to hold the ropes in place during installation of the front  
plate and burner assemblies.  
Fig. 10 — Auxiliary Evacuation Device  
MOUNTING THE BURNER  
The burner is shipped and installed as 3 separate sub-  
assemblies (Fig. 11):  
1. Place the high-temperature gasket or insulating rope on  
the generator mounting flange, inside the bolt holes.  
• front plate and refractory assembly, which is attached to  
the generator  
2. Position the frontplate and refractory assembly against the  
generator mounting flange, with the refractory can ex-  
tending into the generator fire tube. Secure in place with  
washers, nuts, and bolts.  
• burner assembly, which is attached to the frontplate  
• gas train and/or oil supply system, which are connected to  
the burner  
3. Place the high-temperature gasket or insulating rope on  
Rigging — Rigging should be used to position both the  
front plate assembly and the burner assembly because of their  
weights. Refer to the shipping container or paperwork for  
the weight of these units. For the front plate, either webbed  
strapping placed around the refractory can or a lifting bar in  
the center opening may be used.  
the frontplate flange, inside the studs.  
4. Position the burner assembly with the burner head ex-  
tending into the front plate and refractory assembly, mak-  
ing sure it is plumb. Secure in place with the retaining  
lugs on the frontplate studs to ensure a rigid mounting.  
Keep the control panel door closed during the burner in-  
stallation to avoid damage. Also, it is good practice to  
remove the flame safeguard chassis during installation and  
to store it in a safe, dry place until start-up.  
5. Measure and fabricate burner support pedestal from pipe(s)  
with pipe thread on both ends. Screw the support pipe  
into the support receptacle, and then screw the opposite  
end into the collar that is welded to the underside of the  
burner housing. Adjust or shim until the burner is level  
and firmly supported.  
IMPORTANT: Be careful that the assembly does not  
slip off.  
For burner assemblies which do not have lifting lugs, place  
webbed strapping around a central balance area of the burner.  
IMPORTANT: Be careful to avoid damage to small  
piping, controls, or wiring.  
Fig. 11 — Burner Mounting  
8
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Fuel System Installation — See Fig. 12-14 for typi-  
cal gas train and oil supply system arrangements. Refer to  
burner manual supplied with the burner for installation in-  
structions on the particular version of gas train and/or oil  
supply system used with your application. These systems are  
supplied pre-assembled, and with pre-installed interconnec-  
tion fittings.  
Do not use Teflon tape on any threaded connections as  
a gas or oil pipe sealant. Loose tape pieces can cause  
valve leakage and are a safety hazard. Use a pipe joint  
compound.  
GAS TRAIN — The high-gas pressure switch is mounted  
on the gas train piping for convenience only, and does not  
NOTES:  
1. Oil system schematic shown in high fire  
position.  
2. Supply pressure must not exceed 3 psi  
(20 kPa) or pump seals may be dam-  
aged.  
Fig. 13 — Mechanical Pressure Atomizing, Light Oil (Pump with External Regulating Relief Valve)  
NOTES:  
1. Oil system schematic shown in high fire  
position.  
2. Supply pressure must not exceed 3 psi  
(20 kPa) or pump seals may be dam-  
aged.  
Fig. 14 — Mechanical Pressure Atomizing, Light Oil (Pump with Integral Regulating Relief Valve)  
10  
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4. Water flow direction must be as specified in job flow dia-  
grams or water flow markings on water boxes, and con-  
nections must be to the correct entering and leaving wa-  
ter box nozzles.  
2. Do not loosen or disconnect fusible plug while connect-  
ing relief pipe to it.  
3. Make sure connections to fusible plug are threaded and  
allow easy piping removal for leak test and maintenance.  
5. Install water box vent and drain piping in accordance with  
individual job data. Air vents should be at all high points  
in piping to eliminate water hammer.  
4. Install pipe hangers where needed to be sure no weight or  
stress is placed on the fusible plug.  
6. Location of the chilled hot water and cooling water pumps  
as well as the expansion tank must allow for the hydro-  
static and water heads, to ensure that the total pressure  
does not exceed the water box design working pressure.  
7. A cooling tower bypass valve should be installed if the  
cooling water temperature might fall below 59 F (15 C)  
during chiller operation.  
8. Install thermometer wells and thermometers on the en-  
tering and leaving chilled/hot water pipes, absorber en-  
tering and leaving cooling water pipes, and condenser leaving  
cooling water pipe. Thermometer wells should extend into  
1
the pipe a minimum of 3 pipe diameter.  
9. Install pressure gage taps and pressure gages on the en-  
tering and leaving chilled/hot water pipes and cooling wa-  
ter pipes.  
Fusible Plug Drain Piping (Fig. 16)  
1. Connect drain piping to discharge hot water to safe area.  
Fig. 16 — Fusible Plug Drain Piping  
LEG
PRESSURE GAGE  
THERMOMETER  
STRAINER  
CHECK VALVE  
FLOW METER  
MACHINE ENVELOPE  
Fig. 15 — Piping Flow Schematic  
11  
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Connect Rupture Disc Piping — Vent rupture disc  
to the outside of the building for safety. Model 16DF ma-  
chines sometimes are factory equipped with a rupture disc  
assembly on the generator-vapor transfer area.  
1. Add a flexible connection and adequate support to pipe,  
as required, to eliminate any piping stress on rupture disc.  
Provide fittings so vent piping can be disconnected pe-  
riodically for inspection of disc. Provide pipe plug on out-  
let side of relief device for leak testing.  
2. Cover outdoor vent with a rain cap to prevent excessive  
moisture from entering the vent line.  
3. Place a condensate drain at the low point in the piping to  
prevent any water build-up on the atmospheric side of  
the disc assembly.  
Connect Fuel Piping — Connect fuel lines to burner  
fuel system and install separate fuel fittings using job data,  
piping drawings, and general guidelines found in the burner  
manual supplied by the burner manufacturer. Installation re-  
quirements will vary for local building and insurance codes,  
and for different application conditions.  
Do not use Teflon Tape as an oil or gas pipe sealant.  
Tape can cause valves to fail, creating a safety hazard.  
Use a pipe joint compound.  
1. Use a full size dirt pocket or trap in gas piping ahead of  
the main manual shutoff.  
2. Piping must be sized to provide the minimum specified  
oil or gas pressure at the main manual shutoff when op-  
erating at the maximum input.  
3. A 2-pipe system with suction and return lines must be  
used for oil burners, and the lines should be run in a trench  
or under the floor when possible. Copper tubing with flare  
fittings should be used for oil lines.  
4. Hand valves must not be installed on discharge side of oil  
pump or return line without a bypass relief installed to  
the tank. An oil shut-off valve should be provided in the  
suction line near the burner.  
5. Oil suction lines should be pitched back slightly to the  
tank and care should be taken to avoid any air traps in the  
line.  
6. The fuel system must be pressure tested with air or inert  
gas and proven leak tight. Gas systems should be tested  
for at least 3 times the gas pressure that will be used.  
Connect Exhaust Duct — Connect combustion ex-  
haust ducting using job data and piping drawings. Systems  
will vary for different application conditions.  
1. Sharp bends and restrictions should be avoided to allow  
smooth gas flow.  
2. The outlet should be arranged to prevent rainwater entry  
into the machine exhaust, and drains should be provided  
to remove condensate or water.  
3. Exhaust gas dampers and draft regulators must be in-  
stalled correctly for proper operation.  
INSULATION AND PAINT  
Insulation (If Required) — Apply insulation as in-  
dicated in job data, after machine assembly and field piping  
have been completed. If shipping vacuum or pressure test  

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