Howden Roots Universal RAI, Roots Metric, Roots URAI-DSL, Roots URAI-G Installation, Operation And Maintenance Manual

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Roots* Universal RAI*, URAI-DSL, URAI-G* & Metric Series
Installation Operation & Maintenance Manual
www.howden.com
Roots* Universal RAI*, URAI-DSL, URAI-G* & Metric Series
Installation, Operation and Maintenance Manual
Contents
Information Summary..............................................2
Safety Precautions..................................................3
Operating Limit........................................................3
Installation............................................................4-6
Technical Supplement for URAI-G blowers ............8
Lubrication............................................................8-9
Operation...............................................................10
Do these things to get the most from your Roots* Blower
Check shipment for damage. If found, file claim with
carrier and notify Howden Roots.
Unpack shipment carefully, and check contents
against Packing List. Notify Howden Roots if a shortage appears.
Store in a clean, dry location until ready for
installation. Lift by methods discussed under INSTALLATION to avoid straining or distorting the equipment. Keep covers on all openings. Protect against weather and corrosion if outdoor storage is necessary.
Read OPERATING LIMITATIONS and
INSTALLATION sections in this manual and plan the complete installation.
Provide for adequate safeguards against accidents
to persons working on or near the equipment during both installation and operation. See SAFETY PRECAUTIONS.
Install all equipment correctly. Foundation design
must be adequate and piping carefully done. Use recommended accessories for operating protection.
Make sure both driving and driven equipment is
correctly lubricated before start-up. See LUBRICATION.
Roots products are sold subject to the current General Terms of Sale, ES104 and Warranty Policy WP-5020. Copies are available upon request.
Troubleshooting.....................................................11
Inspection & Maintenance.....................................12
Figures.............................................................13-16
Tables...............................................................16-17
Assembly Drawings..........................................18-23
Parts List.........................................................24-25
Basic Connection & Drive Shaft Information...26-28
Read starting check points under OPERATION. Run
equipment briefly to check for installation errors and make corrections. Follow with a trial run under normal operating conditions.
In event of trouble during installation or operation, do
not attempt repairs of Howden Roots furnished equipment. Notify Howden Roots, giving all nameplate information plus an outline of operating conditions and a description of the trouble. Unauthorized attempts at equipment repair may void Howden Roots warranty.
Units out of warranty may be repaired or adjusted by
the owner. Good inspection and maintenance practices should reduce the need for repairs.
NOTE: Information in this manual is correct as of the
date of publication. Howden Roots reserves the right to make design or material changes without notice, and without obligation to make similar changes on equipment of prior manufacture.
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Safety Precautions
It is important that all personnel observe safety precautions to minimize the chances of injury. Among many considerations, the following should be particularly noted:
Blower casing and associated piping or accessories may
become hot enough to cause major skin burns on contact.
Internal and external rotating parts of the blower and
driving equipment can produce serious physical injuries. Do not reach into any opening in the blower while it is operating, or while subject to accidental starting. Protect external moving parts with adequate guards.
Disconnect power before doing any work, and avoid
bypassing or rendering inoperative any safety or protective devices.
If blower is operated with piping disconnected, place a
strong coarse screen over the inlet and avoid standing in the discharge air stream.
Operating Limitations
A Roots blower or exhauster must be operated within certain approved limiting conditions to enable continued satisfactory performance. Warranty is contingent on such operation.
Maximum limits for pressure, temperature and speed are specified in Table 1 for various models & sizes of blowers and exhausters. These limits apply to all units of normal construction, when operated under standard atmospheric conditions. Be sure to arrange connections or taps for instruments, thermometers and pressure or vacuum gauges at or near the inlet and discharge connections of the unit. These, along with a tachometer, will enable periodic checks of operating conditions.
PRESSURE – The pressure rise, between inlet and
discharge, must not exceed the figure listed for the specific unit frame size concerned. Also, in any system where the unit inlet is at a positive pressure above atmosphere a maximum case rating of 25 PSI gauge (1725 mbar) should not be exceeded without first consulting Roots. Never should the maximum allowable differential pressure be exceeded.
On vacuum service, with the discharge to atmospheric pressure, the inlet suction or vacuum must not be greater than values listed for the specific frame size.
TEMPERATURE – Blower & exhauster frame sizes are
approved only for installations where the following temperature limitations can be maintained in service:
CAUTION: Never cover the blower inlet with your hand or other part of body.
Stay clear of the blast from pressure relief valves and
the suction area of vacuum relief valves.
Use proper care and good procedures in handling,
lifting, installing, operating and maintaining the equipment.
Casing pressure must not exceed 25 PSI (1725 mbar)
gauge. Do not pressurize vented cavities from an external source, nor restrict the vents without first consulting Roots.
Do not use air blowers on explosive or hazardous
gases.
Other potential hazards to safety may also be
associated with operation of this equipment. All personnel working in or passing through the area should be trained to exercise adequate general safety precautions.
Measured temperature rise must not exceed listed
values when the inlet is at ambient temperature. Ambient is considered as the general temperature of the space around the unit. This is not outdoor temperature unless the unit is installed outdoors.
If inlet temperature is higher than ambient, the listed
allowable temperature rise values must be reduced by 2/3 of the difference between the actual measured inlet temperature and the ambient temperature.
The average of the inlet and discharge temperature
must not exceed 250°F. (121°C).
The ambient temperature of the space the blower/motor
is installed in should not be higher than 120°F (48.8°C).
SPEED – These blowers & exhausters may be operated
at speeds up to the maximum listed for the various frame sizes. They may be direct coupled to suitable constant speed drivers if pressure/temperature conditions are also within limits. At low speeds, excessive temperature rise may be a limiting factor
Special Note: The listed maximum allowable
temperature rise for any particular blower & exhauster may occur well before its maximum pressure or vacuum rating is reached. This may occur at high altitude, low vacuum or at very low speed. The units’ operating limit is always determined by the maximum rating reached first. It can be any one of the three: Pressure, Temperature or Speed.
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Installation
Roots blowers & exhausters are treated after factory assembly to protect against normal atmospheric corrosion. The maximum period of internal protection is considered to be one year under average conditions, if shipping plugs and seals are not removed. Protection against chemical or salt water atmosphere is not provided. Avoid opening the unit until ready to start installation, as corrosion protection will be quickly lost due to evaporation.
If there is to be an extended period between installation and start up, the following steps should be taken to ensure corrosion protection.
Coat internals of cylinder, gearbox and drive end
bearing reservoir with Nox-Rust VCI-10 or equivalent. Repeat once a year or as conditions may require. Nox­Rust VCI-10 is petroleum soluble and does not have to be removed before lubricating. It may be obtained from Daubert Chemical Co., 2000 Spring Rd., Oak Brook, Ill.
60521.
Paint shaft extension, inlet and discharge flanges, and
all other exposed surfaces with Nox-Rust X-110 or equivalent.
Seal inlet, discharge, and vent openings. It is not
recommended that the unit be set in place, piped to the system, and allowed to remain idle for extended periods. If any part is left open to the atmosphere, the Nox-Rust VCI-10 vapor will escape and lose its effectiveness.
Protect units from excessive vibration during storage.  Rotate shaft three or four revolutions every two weeks.  Prior to start up, remove flange covers on both inlet and
discharge and inspect internals to insure absence of rust. Check all internal clearances. Also, at this time, remove gearbox and drive end bearing cover and inspect gear teeth and bearings for rust.
Because of the completely enclosed unit design, location of the installation is generally not a critical matter. A clean, dry and protected indoor location is preferred. However, an outdoor location will normally give satisfactory service. Important requirements are that the correct grade of lubricating oil be provided for expected operating temperatures, and that the unit be located so that routine checking and servicing can be performed conveniently. Proper care in locating driver and accessory equipment must also be considered.
Supervision of the installation by a Howden Roots Service Engineer is not usually required for these units. Workmen with experience in installing light to medium weight machinery should be able to produce satisfactory results. Handling of the equipment needs to be accomplished with care, and in compliance with safe practices. Unit mounting must be solid, without strain or
twist, and air piping must be clean, accurately aligned and properly connected.
Bare-shaft Units: Two methods are used to handle a
unit without base. One is to use lifting lugs bolted into the top of the unit headplates. Test them first for tightness and fractures by tapping with a hammer. In lifting, keep the direction of cable pull on these bolts as nearly vertical as possible. If lifting lugs are not available, lifting slings may be passed under the cylinder adjacent to the headplates. Either method prevents strain on the extended drive shaft.
Packaged Units: When the unit is furnished mounted
on a baseplate, with or without a driver, use of lifting slings passing under the base flanges is required. Arrange these slings so that no strains are placed on the unit casing or mounting feet, or on any mounted accessory equipment. DO NOT use the lifting lugs in the top of the unit headplates.
Before starting the installation, remove plugs, covers or seals from unit inlet and discharge connections and inspect the interior completely for foreign material. If cleaning is required, finish by washing the cylinder, headplates and impeller thoroughly with an appropriate solvent. Turn the drive shaft by hand to make sure that the impellers turn freely at all points. Anti-rust compound on the connection flanges and drive shaft extension may also be removed at this time with the same solvent. Cover the flanges until ready to connect piping.
Mounting
Care will pay dividends when arranging the unit mounting. This is especially true when the unit is a “bare-shaft” unit furnished without a baseplate. The convenient procedure may be to mount such a unit directly on a floor or small concrete pad, but this generally produces the least satisfactory results. It definitely causes the most problems in levelling and alignment and may result in a “Soft Foot” condition. Correct soft foot before operation to avoid unnecessary loading on the casing and bearings. Direct use of building structural framing members is not recommended.
For blowers without a base, it is recommended that a well anchored and carefully levelled steel or cast iron mounting plate be provided. The plate should be at least 1 inch (25 mm) thick, with its top surface machined flat, and large enough to provide levelling areas at one side and one end after the unit is mounted. It should have properly sized studs or tapped holes located to match the unit foot drilling. Proper use of a high quality machinist’s level is necessary for adequate installation.
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With the mounting plate in place and levelled, set the unit on it without bolting and check for rocking. If it is not solid, determine the total thickness of shims required under one foot to stop rocking. Place half of this under each of the diagonally-opposite short feet, and tighten the mounting studs or screws. Rotate the drive shaft to make sure the impellers turn freely. If the unit is to be direct coupled to a driving motor, consider the height of the motor shaft and the necessity for it to be aligned very accurately with the unit shaft. Best unit arrangement is directly bolted to the mounting plate while the driver is on shims of at least 1/8 inch (3mm) thickness. This allows adjustment of motor position in final shaft alignment by varying the shim thickness.
Aligning
When unit and driver are factory mounted on a common baseplate, the assembly will have been properly aligned and is to be treated as a unit for levelling purposes. Satisfactory installation can be obtained by setting the baseplate on a concrete slab that is rigid and free of vibration, and levelling the top of the base carefully in two directions so that it is free of twist. The slab must be provided with suitable anchor bolts. The use of grouting under and partly inside the levelled and shimmed base is recommended.
It is possible for a base-mounted assembly to become twisted during shipment, thus disturbing the original alignment. For this reason, make the following checks after the base has been levelled and bolted down. Disconnect the drive and rotate the unit shaft by hand. It should turn freely at all points. Loosen the unit foot hold­down screws and determine whether all feet are evenly in contact with the base. If not, insert shims as required and again check for free impeller rotation. Finally, if unit is direct coupled to the driver, check shaft and coupling alignment carefully and make any necessary corrections.
In planning the installation, and before setting the unit, consider how piping arrangements are dictated by the unit design and assembly. Drive shaft rotation must be established accordingly and is indicated by an arrow near the shaft.
Typical arrangement on vertical units has the drive shaft at the top with counterclockwise rotation and discharge to the left. Horizontal units are typically arranged with the drive shaft at the left with counterclockwise rotation and discharge down. See Figure 4 for other various unit arrangements and possible conversions.
When a unit is DIRECT COUPLED to its driver, the driver RPM must be selected or governed so as not to
exceed the maximum speed rating of the unit. Refer to Table 1 for allowable speeds of various unit sizes.
A flexible type coupling should always be used to connect the driver and unit shafts.
When direct coupling a motor or engine to a blower you must insure there is sufficient gap between the coupling halves and the element to prevent thrust loading the blower bearings. When a motor, engine or blower is operated the shafts may expand axially. If the coupling is installed in such a manner that there is not enough room for expansion the blower shaft can be forced
back into the blower and cause the impeller to contact the gear end headplate resulting in damage to the blower. The two shafts must be in as near perfect alignment in all directions as possible, and the gap must be established with the motor armature on its electrical center if end-play exists. Coupling manufacturer’s recommendations for maximum misalignment, although acceptable for the coupling, are normally too large to achieve smooth operation and maximum life of the blower.
The following requirements of a good installation are recommended. When selecting a coupling to be fitted to the blower shaft Howden Roots recommends a taper lock style coupling to insure proper contact with the blower shaft. If the coupling must have a straight bore the coupling halves must be fitted to the two shafts with a line to line thru .001” interference fit. Coupling halves must be warmed up per coupling manufacturer’s recommendations. Maximum deviation in offset alignment of the shafts should not exceed .005" (.13 mm) total indicator reading, taken on the two coupling hubs. Maximum deviation from parallel of the inside coupling faces should not exceed .001" (.03 mm) when checked at six points around the coupling.
When a unit is BELT DRIVEN, the proper selection of sheave diameters will result in the required unit speed. When selecting a sheave to be fitted to the blower shaft Howden Roots recommends a taper lock style sheave to insure proper contact with the blower shaft. This flexibility can lead to operating temperature problems caused by unit speed being too low. Make sure the drive speed selected is within the allowable range for the specific unit size, as specified under Table 1.
Belt drive arrangements usually employ two or more V­belts running in grooved sheaves. Installation of the driver is less critical than for direct coupling, but its shaft must be level and parallel with the unit shaft. The driver
should be mounted on the inlet side of a vertical unit (horizontal piping) and on the side nearest to the shaft on a horizontal unit. SEE PAGE 6 - Acceptable
ISRB_2002 GEA 19171 Roots URAI Page 5 of 32
Blower Drive Arrangement Options. The driver must
also be mounted on an adjustable base to permit installing, adjusting and removing the V-belts. To position the driver correctly, both sheaves need to be mounted on their shafts and the nominal shaft center distance known for the belt lengths to be used.
CAUTION: Drive couplings and sheaves (pulleys)
should have an interference fit to the shaft of the blower (set screw types of attachment generally do not provide reliable service.) It is recommended that the drive coupling or sheave used have a taperlock style bushing which is properly sized to provide the correct interference fit required. Drive couplings, that require heating to fit on the blower shaft, should be installed per coupling manufacturer recommendations. A drive coupling or sheave should not be forced on to the shaft of the blower as this could affect internal clearances resulting in damage to the blower.
Engine drive applications often require special consideration to drive coupling selection to avoid harmful torsional vibrations. These vibrations may lead to blower damage if not dampened adequately. It is often necessary to install a fly-wheel and/or a torsionally soft elastic element coupling based on the engine manufacturer recommendations.
The driver sheave should also be mounted as close to its bearing as possible, and again should fit the shaft correctly. Position the driver on its adjustable base so that 2/3 of the total movement is available in the direction away from the unit, and mount the assembly so that the face of the sheave is accurately in line with
the unit sheave. This position minimizes belt wear, and allows sufficient adjustment for both installing and tightening the belts. After belts are installed, adjust their tension in accordance with the manufacturer’s instructions. However, only enough tension should be applied to prevent slippage when the unit is operating under load. Excessive tightening can lead to early bearing concerns or shaft breakage.
Before operating the drive under power to check initial belt tension, first remove covers from the unit connections. Make sure the interior is still clean, and then rotate the shaft by hand. Place a coarse screen over the inlet connection to prevent anything being drawn into the unit while it is operating, and avoid standing in line with the discharge opening. Put oil in the sumps per instructions under LUBRICATION.
Piping
Before connecting piping, remove any remaining anti­rust compound from unit connections. Clean pipe should be no smaller than unit connections. In addition, make sure it is free of scale, cuttings, weld beads, or foreign material of any kind. To further guard against damage to the unit, especially when an inlet filter is not used, install a substantial screen of 16 mesh backed with hardware cloth at or near the inlet connections. Make provisions to clean this screen of collected debris after a few hours of operation. It should be removed when its usefulness has ended, as the wire will eventually deteriorate and small pieces going into the unit may cause serious damage.
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Pipe flanges or male threads must meet the unit connections accurately and squarely. DO NOT attempt to correct misalignment by springing or cramping the pipe. In most cases this will distort the unit casing and cause impeller rubbing. In severe cases it can prevent operation or result in a broken drive shaft. For similar reasons, piping should be supported near the unit to eliminate dead weight strains. Also, if pipe expansion is likely to occur from temperature change, installation of flexible connectors or expansion joints is advisable.
Figure 3 represents an installation with all accessory items that might be required under various operating conditions. Inlet piping should be completely free of valves or other restrictions. When a shut-off valve cannot be avoided, make sure a full size vacuum relief is installed nearest the unit inlet. This will protect against unit overload caused by accidental closing of the shutoff valve.
Need for an inlet silencer will depend on unit speed and pressure, as well as sound-level requirements in the general surroundings. An inlet filter is recommended, especially in dusty or sandy locations. A discharge silencer is also normally suggested, even though WHISPAIR* units operate at generally lower noise levels than conventional rotary blowers. Specific recommendations on silencing can be obtained from
your local Howden Roots distributor. Discharge piping requires a pressure relief valve, and should include a manual unloading valve to permit starting the unit under no-load conditions. Reliable pressure/vacuum gauges and good thermometers at both inlet and discharge are recommended to allow making the important checks on unit operating conditions. The back-pressure regulator shown in Figure 3 is useful mainly when volume demands vary while the unit operates at constant output. If demand is constant, but somewhat lower than the unit output, excess may be blown off through the manual unloading valve.
In multiple unit installations where two or more units operate with a common header, use of check valves is mandatory. These should be of a direct acting or free swinging type, with one valve located in each line between the unit and header. Properly installed, they will protect against damage from reverse rotation caused by air and material back-flow through an idle unit.
After piping is completed, and before applying power, rotate the drive shaft by hand again. If it does not move with uniform freedom, look for uneven mounting, piping strain, excessive belt tension or coupling misalignment.
DO NOT operate the unit at this time unless it has been
lubricated per instructions.
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Technical Supplement for URAI-G Gas Blowers
Technical Supplement for 32, 33, 36, 42, 45, 47, 53, 56, 59, 65, 68, 615 Universal RAI-G blowers
Precaution: URAI-G blowers: Care must be used when opening the head plate seal vent chamber plugs (43) as some gas will escape–if it is a pressure system, or the atmospheric air will leak into the blower if the system is under vacuum. There is a possibility of some gas leakage through the mechanical seals. This leakage on the gear end will escape through the gear box vent, and on the drive end, through the grease release fittings. If the gas leakage is undesirable, each seal chamber must be purged with an inert gas through one purge gas hole (43) per seal. There are two plugged purge gas holes (1/8 NPT) provided per seal. The purge gas pressure must be maintained one PSI above the discharge gas pressure. Also, there exists a possibility of gear end oil and drive end grease leakage into the gas stream.
Roots Universal RAI-G rotary positive gas blowers are a design extension of the basic Roots Universal RAI blower model. URAIG blower uses (4) mechanical seals in place of the standard inboard lip seals to minimize gas leakage into the atmosphere.
These units are intended for gases which are compatible with cast iron case material, steel shafts, 300/400 series stainless steel and carbon seal components, viton o­rings and the oil/ grease lubricants. If there are any questions regarding application or operation of this gas blower, please contact factory.
A simple but very effective lubrication system is employed on the drive shaft end bearings. Hydraulic pressure relief fittings are provided to vent any excess
Lubrication
Due to sludge build-up and seal leakage problems, Howden Roots recommendation is DO NOT USE Mobil SHC synthetic oils in Roots blowers.
Proper lubrication is usually the most important single consideration in obtaining maximum service life and satisfactory operation from the unit.
URAI Air and Gas gear end bearing lubrication/oil with splash lubrication on the gear end only (Drive end grease lubricated).
The specified and recommended oil is Roots Synthetic
Oil of correct viscosity per Table 2, page 16.
To fill the gearbox, remove the breather plug (25) and
the oil overflow plug (21) - see page 15. Fill the reservoir up to the overflow hole. DO NOT OVERFILL. Place the
grease, preventing pressure build-up on the seals. A restriction plug and metering orifice prevent loss of lubricant from initial surges in lubricant pressure but permit venting excess lubricant under steadily rising pressures.
Using a pressure gun, slowly force new lubricant into each drive end bearing housing until traces of clean grease comes out of the relief fitting. The use of an electric or pneumatic grease gun could force the grease in too rapidly and thus invert the seals and should not be used.
Gear end bearings, gears and oil seals are lubricated by the action of the timing gears which dip into the main oil sumps causing oil to splash directly on gears and into bearings and seals. A drain port is provided below each bearing to prevent an excessive amount of oil in the bearings. Seals located inboard of the bearings in each headplate effectively retain oil within the sumps. Any small weepage that may occur should the seals wear passes into a cavity in each vented headplate and is drained downward.
Proper lubrication is usually the most important single consideration in obtaining maximum service life and satisfactory operation from the unit. Unless operating conditions are severe, a weekly check of oil level and necessary addition of lubricant should be sufficient.
During the first week of operation, check the oil levels in the oil sumps about once a day, and watch for leaks. Replenish as necessary. Thereafter, an occasional check should be sufficient.
More frequent oil service may be necessary if the blower is operated in a very dusty location.
breather and the overflow plug back into their respective holes.
The lubrication should be changed after initial 100 hours
of operation.
Proper service intervals of the oil thereafter are based
on the discharge air temperature of the blower. Please refer to the information below to “How to properly determine the oil service intervals” shown on this page.
Unless operating conditions are quite severe, a weekly
check of the oil level and necessary addition of lubricant should be sufficient. During the first week of operation, check the oil levels in the oil sumps about once a day, and watch for leaks. Replenish as necessary.
If you choose to use another oil other than the specified
and recommended ROOTS Synthetic, use a good grade of industrial type non-detergent, rust inhibiting, anti­foaming oil and of correct viscosity per Table 2, page 16.
ISRB_2002 GEA 19171 Roots URAI Page 8 of 32
Howden Roots does NOT recommend the use of
automotive type lubricants, as they are not formulated with the properties mentioned above.
Roots URAI-DSL blowers with splash lubrication/oil on each end. No grease.
The specified and recommended oil is Roots Synthetic
Oil of correct viscosity per Table 2, page 16.
The lubrication should be changed after initial 100 hours
of operation.
The proper oil level should be half way or middle of the
sight gauge when the blower is not operating. DO NOT
OVERFILL OIL SUMP/S as damage to the blower may
occur.
The oil level should not fall below the middle of the site
gauge when the blower is idle.
The lubrication/oil level may rise or fall in the gauge
during operation to an extent depending somewhat on oil temperature and blower speed. Proper service intervals of the oil thereafter are based on the discharge air temperature of the blower. Please refer to the information below to “How to properly determine the oil service intervals” shown on this page.
Unless operating conditions are quite severe, a weekly
check of the oil level and necessary addition of lubricant should be sufficient. During the first week of operation, check the oil levels in the oil sumps about once a day, and watch for leaks. Replenish as necessary.
If you choose to use another oil other than the specified
and recommended Roots Synthetic Oil, use a good grade of industrial type non-detergent, rust inhibiting, antifoaming oil and of correct viscosity per Table 2, page
16.
Roots does NOT recommend the use of automotive type
lubricants, as they are not formulated with the properties mentioned above.
How to properly determine the oil service intervals.
Normal life expectancy of the specified and recommended Roots Synthetic Oil is approximately 6000 hours with an oil temperature of 180°F (82°C) or less. As the oil temperature increases by increments of 15°F (8°C), the oil life is reduced by half for each 15°F (8°C) increase. Example: Oil temperatures of 195°F (90.5°C) will produce a life expectancy reduced by half or 3000 hours oil service life.
Normal life expectancy of petroleum based oils is about 2000 hours with an oil temperature of about 180°F (82°C). As the oil temperature increases by increments of 15°F (8°C), the life is reduced by half for each 15°F (8°C) increase. Example: Oil temperatures of 195°F (90.5°C) will produce life expectancy reduced by half or 1000 hours oil service life.
NOTE: To estimate oil temperature, multiply the
discharge temperature of the blower by 0.80. Example: if the discharge air temperature of the blower is 200° F, it is estimated that the oil temperature is 160° F
For Units with grease lubricated drive end bearings.
URAI AIR (Non GAS) blower grease specifications.
When servicing drive end bearings of a AIR (Non Gas)
blower, use the specified and recommended Shell Darina SD 2 NLGI #2 product code 5067628.
For grease lubricated drive end blowers see page 16,
table 4, regarding specified greasing intervals.
Lithium based greases are not compatible with the
specified and recommended Shell Darina SD 2 grease used when assembling the blower. Lithium based
grease is not approved for any ROOTS blowers.
Table 4 page 16 has been prepared as a general
greasing schedule guide based on average operating conditions. More frequent intervals may be necessary
ending on the grease operating temperature and
dep unusual circumstances.
URAI-G blower grease specifications.
When servicing drive end bearings of a URAI-G blower,
use the specified NLGI #2 premium grade aluminium complex† grease, GE P/N T20019001. Lithium based greases are not compatible with the specified and recommended Roots Synthetic Grease used when assembling a GAS blower. Lithium based grease is
not approved for any Roots blowers.
The lubricants selected must be compatible with the
gas.
†Roots Synthetic Oil is superior in performance to petroleum based products. It has high oxidation stability, excellent corrosion protection, extremely high film strength and low coefficient of friction. Typical oil change intervals are increased 2-3 times over petroleum based lubricants. Also, Roots Synthetic Oil is 100% compatible with petroleum based oils. Simply drain the oil in the blower and refill the reservoirs with Roots Synthetic Oil to maintain optimum performance of your Roots
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Operation
Before operating a blower under power for the first time, recheck the unit and the installation thoroughly to reduce the likelihood of avoidable troubles. Use the following procedure check list as a guide, but consider any other special conditions in the installation.
Be certain that no bolts, tools, rags, or debris have been
left in the blower air chamber or piping.
If an outdoor intake without filter is used, be sure the
opening is located so it cannot pick up dirt and is protected by a strong screen or grille. Use of the temporary protective screen as described under INSTALLATION is strongly recommended.
Recheck blower levelling, drive alignment and tightness
of all mounting bolts if installation is not recent. If belt drive is used, adjust belt tension correctly.
Turn drive shaft by hand to make sure impellers still
rotate without bumping or rubbing at any point.
Ensure oil levels in the main oil sumps are correct.  Check lubrication of driver. If it is an electric motor, be
sure that power is available and that electrical overload devices are installed and workable.
Open the manual unloading valve in the discharge air
line. If a valve is in the inlet piping, be sure it is open.
Bump blower a few revolutions with driver to check that
direction of rotation agrees with arrow near blower shaft, and that both coast freely to a stop.
After the preceding points are cleared, blower is ready for trial operation under “no-load” conditions. The following procedure is suggested to cover this initial operation test period.
a. Start blower, let it accelerate to full speed, then shut off. Listen for knocking sounds, both with power on and as speed slows down.
b. After blower comes to a complete stop, repeat above, but let blower run 2 or 3 minutes. Check for noises, such as knocking sounds.
c. After blower comes to a complete stop, operate blower for about 10 minutes unloaded. Check oil levels. Observe cylinder and headplate surfaces for development of hot spots such as burned paint, indicating impeller rubs. Be aware of any noticeable increase in vibration.
Assuming that all trials have been satisfactory, or that necessary corrections have been made, the blower should now have a final check run of at least one hour under normal operating conditions. After blower is restarted, gradually close the discharge unloading valve to apply working pressure.
At this point it is recommended that a pressure gauge or manometer be connected into the discharge line if not
already provided, and that thermometers be in both inlet and discharge lines. Readings from these instruments will show whether pressure or temperature ratings of the blower are being exceeded.
During the final run, check operating conditions frequently and observe the oil levels at reasonable intervals. If excessive noise or local heating develops, shut down immediately and determine the cause. If either pressure rise or temperature rise across the blower exceeds the limit specified in this manual, shut down and investigate conditions in the piping system. Refer to the TROUBLESHOOTING CHECKLIST for suggestions on various problems that may appear.
The blower should now be ready for continuous duty operation at full load. During the first few days make periodic checks to determine whether all conditions remain steady, or at least acceptable. This may be particularly important if the blower is supplying air to a process system where conditions can vary. At the first opportunity, stop the blower and clean the temporary inlet protective screen. If no appreciable amount of debris has collected, the screen may be removed. See comments under INSTALLATION. At this same time, verify levelling, coupling alignment or belt tension, and mounting bolt tightness.
Should operating experience prove that blower capacity is a little too high for the actual air requirements, a small excess may be blown off continuously through the manual unloading or vent valve. Never rely on the pressure relief valve as an automatic vent. Such use may cause the discharge pressure to become excessive, and can also result in unsafe operation of the valve itself. If blower capacity appears to be too low, refer to the TROUBLESHOOTING CHECKLIST.
Vibration Assessment Criteria
With measurements taken at the bearing locations on the housings, see chart below for an appropriate assessment guide for rotary lobe blowers rigidly mounted on stiff foundations.
In general, blower vibration levels should be monitored on a regular basis and the vibration trend observed for progressive or sudden change in level. If such a change occurs, the cause should be determined through spectral analysis.
As shown on the chart below, the level of all pass vibration will determine the need to measure discrete frequency vibration levels and the action required.
ISRB_2002 GEA 19171 Roots URAI Page 10 of 32
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