Marley MC Fluid Cooler User Manual
Contents
1. Range Difference between hot fluid temperature and cold fluid temperature EXAMPLE 700 GPM circulating rate 18 F cooling range To maintain 4 concentrations the required blowdown is 0 458 or 00458 times 700 GPM which is 3 2 GPM If fluid cooler is operated at 4 concentrations circulating fluid will contain four times as much dissolved solid as the makeup fluid assuming none of the solids form scale or are otherwise removed from the system When fluid treatment chemicals are added they should not be introduced into the circulating fluid system via the fluid collection basin of the fluid cooler Fluid velocities are lowest at that point which results in inadequate mixing An ideal location would be the distribution piping on the pressure side of the pump Bushing Fastener Torque Values A Warning Maintenance Belt Tensioning The belts are adjusted by means of a hinged base with tensioning bolts acces sible through the access panel fan guards Check tension frequently during the first 24 48 hours of run in operation To properly adjust the belt tension position the fan motor so that moderate pressure on the belt midway between the sheaves will produce a deflection Overtensioning shortens belt and bearing life Keep belts free from foreign material which may cause slipping Never apply belt dressing as this will damage the belt and cause early failure A Dodge V Belt Tension Tester2. Marley MC Fluid Cooler User Manual 07 1185D n Marley AN SPX BRAND Note A Warning A Caution Note Contents This manual contains vital information for the proper installation and operation of your fluid cooler Carefully read the manual before installation or operation of the fluid cooler and follow all instruc tions Save this manual for future reference Fuld Cooler LOCALNON suuin itt tf t atto pwa wa a an 5 Fluid Cooler Shipment sse tnnt ntn 6 Receiving Fluid Cooler tte timere 6 Hoisting Fl id Cooler rettet detener testet centena teste a 6 Fluid Cooler Installations core ettet ee ae 7 MOUTON EE 8 Mechanical Equipment c hide cles 11 Fluid Cooler Start Up tetra tuit kinn 12 Fid Cooler Operation cara tnr cc tp kota tcs 13 Wintertime Operation tenente tentent tenentem teen 15 Fluid Treatment t titm i aident Dn adiu tim 18 Fluid Cooler Cleaning iiiter ttt teni treten tete don au e adan at pov dok 19 19 Belt Adj stmeht 21 Sheave Alignmeht meer deter koki a ee 21 Fluid Cooler Maintenance esee san ne sonson se tenete tentent tenes 21 Seasonal Shutdown Instructions sees ttes 23 Maintenance Schedule sensere 26 Additional Services aao arat cca kl pl ad tn e bae ii o etus 27 Troubleshooting E 2
3. each low speed start and each high speed start count as one start If your fluid cooler consists of two or more cells cycling of motors may be shared between cells increasing your steps of operation accordingly Multiple fan motors serving a single coil section must be cycled simultaneously This applies to all 7055 and 7075 MC Fluid Cooler models Multicell fluid coolers equipped with two speed motors will maximize energy savings and minimize sound levels if fans are staged so that all fans are brought up to low speed before any fan goes to high speed For greater insight on process fluid temperature control please read Cooling Tower Energy and its Management Technical Report H 001 A available at spxcooling com Wintertime Operation Itisthe operator s responsibility to prevent the formation of destruc tive hard ice on the fluid cooler coil Certain guidelines should be followed 1 Do not allow the fluid cooler s leaving process fluid temperature to drop below 45 F If such low temperature operation is necessary or beneficial to your process establish the minimum allowable level as follows During the coldest days of the first winter of operation observe whether any ice is forming on the air inlet particularly near the bottom part of the louver face If hard ice is present on the air inlet you must increase the allowable cold process fluid temperature m A Caution 16 Operation If the minimum allowa
4. and recirculation pump s in accordance with wiring dia gram For maintenance safety purposes SPX Cooling Technologies recommends a lockout type disconnect switch for all mechanical equipment In addition to a disconnect switch the motor should be wired to main power supply through short circuit protection and a magnetic starter with overload protection Motor Wiring Wire motor leads as shown on the motor nameplate matching the supply voltage Do not deviate from the motor nameplate wiring Either of following symbols may be shown on the motor nameplate A A A Y or YY These symbols represent how the motor is constructed on the inside and in no way have anything to do with a Delta or Wye electrical distribution system serving the motor When using a starter Set motor overload protection to 110 of motor nameplate amps This setting allows the fan motor to operate during cooler weather During cooler weather it is common for the motor to draw 6 to 10 higher than nameplate amps High amps are common during fluid cooler commissioning when the fluid cooler is dry and the ambient air temperature is cool Do not start the motor more than four to five times per hour Short cycling the fluid cooler will cause fuses breakers or O L s to operate and will decrease motor life Note Note Installation When using a two speed starter Motor rotation must be the same at slow speed and high speed Single winding motor re
5. concentrations thus increasing the effectiveness of the fluid treatment program See Fluid Cooler Startup instructions on page 12 Blowdown A fluid cooler cools fluid by continuously causing a portion of it to evaporate Although the fluid lost by evaporation is replenished by the makeup system it exits the fluid cooler as pure fluid leaving behind its burden of dissolved solids to concentrate in the remaining fluid Given no means of control this increasing concentration of contaminants can reach a very high level In order to achieve fluid quality which is acceptable to the fluid cooler the selected fluid treatment company must work from a relatively constant level of concentrations This stabilization of contaminant concentrations is usually accomplished by blowdown which is the constant discharge of a portion of the circulating fluid to waste As a rule acceptable levels on which to base a m 19 Note 20 Operation treatment schedule will be in the range of 2 4 concentrations The following table shows the minimum amount of blowdown percent of flow required to maintain different concentrations with various cooling ranges Number of Concentrations 2 5X 3 0X 4 0X 5 2 78 C 25 18 A1 10 F 5 56 C 51 38 25 15 F 8 33 78 58 38 20 F 11 112 C 78 51 25 F 13 89 C 98 64 Multipliers are based on drift of 0 02 of the circulating water rate Cooling Range
6. is an alternate method for tensioning V belts Check with you local belt supplier Sheave Alignment The motor sheave is to be positioned as close as possible to the motor in order to minimize torque on the motor bushings The motor and fan sheaves may have grooves that are not used The bot tom surface of the motor and fan sheaves must be aligned within 14 of each other and level within 2 in 12 in order to not adversely affect belt and sheave life Alignment can be achieved by placing a straight edge across the top of the sheaves making sure that it is level and measuring down to the bottom surface of both sheaves at four points The belt is located in the inboard set of grooves closest to the bearing Bushing Fastener Torque ft lb SD A 20 6 SK Ys 18 13 SF 95 16 22 E 5 13 35 Fluid Cooler Maintenance Some maintenance procedures may require maintenance personnel to enter the fluid cooler The purchaser or owner is responsible for providing a safe method for entering or exiting the access door mm 21 A Warning 22 Maintenance Included with this instruction packet are separate User Manuals on each major operating component of the fluid cooler and it is recommended that you read them thoroughly Where discrepancies may exist the separate User Manuals will take precedence The following is recommended as a minimum routine of scheduled mainte nance Always
7. ppm no significant contamination with unusual chemicals or foreign substances and adequate fluid treatment to minimize scaling Startup Conditions The fluid conditions during initial fluid cooler operation are crucial in preventing premature corrosion of galvanized steel white rust For at least the first eight weeks of operation pH should be controlled between 6 5 and 8 0 with hardness and alkalinity levels between 100 and 300 ppm expressed as CaCO Chlorine if used shall be added intermittently with a free residual not to exceed 1 ppm maintained for short periods Excessive chlorine levels may deteriorate sealants and other materials of construction An atmosphere surrounding the fluid cooler no worse than moderate in dustrial where rainfall and fog are no more than slightly acid and they do not contain significant chlorides or hydrogen sulfide H2S Many proprietary chemicals exist for control of scale corrosion and biologi cal growth and should be used prudently Also combinations of chemicals may cause reactions which reduce treatment effectiveness and certain chemicals such as surfactants biodispersants and antifoams may increase drift rate The structure and coil of your fluid cooler consists primarily of galvanized steel therefore your fluid treatment program must be compatible with zinc In working with your fluid treatment supplier it is important that you recognize the potential effects on zinc
8. shut off electrical power to the fluid cooler fan motor prior to performing any inspections that may involve physical contact with the mechanical or electrical equipment in or on the fluid cooler Lock out and tag out any electrical switches to prevent others from turning the power back on Service personnel must wear proper personal protective clothing and equipment Weekly Inspect for bacterial growth and general operation conditions Bac terial growth should be reported to your fluid treatment expert for immediate attention Monthly Weekly at start up Observe touch and listen to the fluid cooler Become accustomed to its normal appearance sound and level of vibration Abnormal aspects relating to the rotating equipment should be considered reason to shut down the fluid cooler until the problem can be located and corrected Observe operation of the motor and fan Become familiar with the normal operating temperature of the motor s as well as the sight and sound of all components as a whole Inspect drift eliminators and basin trash screens and remove any debris or scale which may have accumulated Replace any damaged or worn out components Use of high pressure fluid may damage the eliminator material Observe operation of the float valve Depress the operating lever to make sure that the valve is operating freely Inspect the suction screen for plugging Remove any debris that may have accumulated Check for any buildup of silt o
9. spxcooling com 27 Troubleshooting Trouble Cause Remedy Motor will not start Power not available at motor terminals Check power at starter Correct any bad connections between the control apparatus and the motor Check starter contacts and control circuit Reset overloads close contacts reset tripped switches or replace failed control switches If power is not on all leads at starter make sure overload and short circuit devices are in proper condition Wrong connections Check motor and control connections against wiring diagrams Low voltage Open circuit in motor winding Motor or fan drive stuck Check nameplate voltage against power supply Check voltage at motor terminals Check stator windings for open circuits Disconnect motor from load and check motor and fan drive for cause of problem Rotor defective Look for broken bars or rings Unusual motor noise Motor running single phase Check motor and attempt to start it Motor will not start if single phased Check wiring controls and motor Motor leads connected incorrectly Check motor connections against wiring diagram on motor Bad bearings Check lubrication Replace bad bearings Electrical unbalance Check voltages and currents of all three lines Correct if required Air gap not uniform Check and correct bracket fits or bearing Rotor unbalance Rebalance Cooling fan hit
10. the fan off the action of the spray system will cause a slight downward movement of air through the coil and deice the fluid cooler Intermittent Wintertime Operation If periods of shutdown nights weekends etc occur during freezing weather measures must be taken to prevent the fluid in the cold process fluid basin and all exposed pipework from freezing Several methods are used to combat this including automatic basin heater systems and pump freeze protection systems available from Marley AN Warning A Caution Z Warning ZAN Caution Operation Basin heaters systems will not prevent the coil from freezing Unless some means of freeze prevention is incorporated into your system the fluid cooler basin and exposed pipework should be drained at the beginning of each wintertime shutdown period Iffluid cooler basin is drained verify that all basin heaters have been shut off either by automatic cutoff or disconnect switch Protection Against Coil Freezing Ethylene and propylene glycol solutions are the best means to protect the coil from freezing The following table provides the coil volume for each MC Fluid Cooler model When the use of industrial antifreeze solutions is not possible the system must be operated to meet both of the following conditions 1 Maintain sufficient flow rate through the coil 2 Maintain sufficient heat load on the process fluid Fluid exiting the coil must be maintained at or above
11. 45 F Cycling of the recirculation pump should not be used to control process temperatures US Galore d US Galore MCF7012 081 11 MCF7055 081 70 MCF7012 101 13 MCF7055 101 88 MCF7012 121 16 MCF7055 121 106 MCF7013 081 17 MCF7073 081 43 MCF7013 101 21 MCF7073 101 54 MCF7013 121 25 MCF7073 121 65 MCF7014 081 23 MCF7074 081 61 MCF7014 101 28 MCF7074 101 76 MCF7014 121 34 MCF7074 121 91 MCF7054 081 46 MCF7075 081 89 MCF7054 101 58 MCF7075 101 112 MCF7054 121 69 MCF7075 121 134 Draining the coil is not acceptable as a normal method of freeze protection draining promotes corrosion inside the coil tubes Drain ing is acceptable in an emergency if the coil is not protected by an antifreeze solution It is recommended that you discuss your freeze prevention options with your local Marley sales representative 17 Note 18 Operation Fluid Treatment and Blowdown Maintaining Fluid Quality The steel used in MC Fluid Cooler s has been galvanized with a heavy zinc coating averaging 2 0 mils in thickness Other materials used PVC drift elimi nators bearing belts are selected to offer maximum service life in a normal fluid cooler environment defined as follows Recirculating fluid with a pH between 6 5 and 8 a chloride content as NaCl below 500 ppm a sulfate content SO4 below 250 ppm total alkalinity as CaCO below 500 ppm calcium hardness as CaCO above 50
12. 8 The following defined terms are used throughout this manual to bring attention to the presence of hazards of various risk levels or to important information concerning the life of the product Indicates presence of a hazard which can cause severe personal injury death or substantial property damage if ignored Indicates presence of a hazard which will or can cause personal injury or property damage if ignored Indicates special instructions on installation operation or main tenance which are important but not related to personal injury hazards A Warning Preparation The Marley MC Fluid Cooler purchased for this installation represents the cur rent state of the art in counterflow forced draft fluid cooler design Thermally and operationally it is the most efficient fluid cooler of its class These instructions as well as those offered separately on motors fans float valves pumps etc are intended to assure that the fluid cooler serves you properly for the maximum possible time Since product warrantability may well depend upon your actions please read these instructions thoroughly prior to operation If you have questions about the operation and or maintenance of this product and you don t find the answers in this manual please contact your Marley sales representative When writing for information or when ordering parts please mention product serial number shown on the nameplate located on the access door
13. Safety First The location and orientation of the fluid cooler can affect the safety of those responsible for installing operating or maintaining the fluid cooler However since SPX Cooling Technologies does not determine the location or orientation of the fluid cooler we cannot be responsible for addressing those safety issues that are affected by the fluid cooler s location or orientation The following safety issues should be considered by those respon sible for designing the fluid cooler installation access to and from maintenance access doors the possible need for ladders either portable or permanent to gain access to the discharge level or maintenance access doors the possible need for external access platforms potential access problems due to obstructions surrounding the fluid cooler lockout of mechanical equipment the possible need for safety cages around ladders the need to avoid exposing maintenance personnel to the poten tially unsafe environment inside the fluid cooler Note Z Warning Preparation Those are only some ofthe safety issues that may arise in the design process SPXstrongly recommends that you consulta safety engineer to be sure that all safety considerations have been addressed Several options are available that may assist you in addressing some of these personnel safety concerns including e Distribution level access platform with handrail system around the perimeter of the p
14. ation fluid pump s be cycled to control process fluid temperature Doing so may result in excessive and premature scaling on the coil exterior surface It is recommenced that while process fluid is being circulated through the coil the fluid cooler recirculation fluid system always be in op eration 4 Airflow rate Reducing air flow through the fluid cooler causes the cold process fluid temperature to rise This is the recommended method by which to control leaving process fluid temperature If your fluid cooler is equipped with a single speed motor the motor may be shut off when the process fluid temperature becomes too cold This will cause the process fluid temperature to rise When the fluid temperature then becomes too warm for your process the motor can be restarted Fan cycling limits Considering the normal fan and motor sizes utilized on MC Fluid Coolers anticipate that approximately 4 to 5 starts per hour are allowable Note A Caution Note Operation If your fluid cooler is equipped with a two speed motor you will enjoy greater opportunity for temperature control When the fluid temperature becomes too cold switching the fan to half speed will cause the cold fluid temperature to rise stabilizing at a temperature a few degrees higher than before With a further reduction in fluid temperature the fan may be cycled alternately from half speed to off Do not start the motor more than four to five times per hour
15. ble cold process fluid temperature is es tablished at or near minimum heat load it should be safe for all operating conditions Having established the minimum allowable cold process fluid temperature maintaining that temperature can be accomplished by fan manipulation as outlined in Item 4 under Fluid Cooler Operation 2 Afan operating in a forced draft fluid cooler is subject to the risk of freez ing Icing is a particular danger as this can form not only on the fan blades but also the inlet guard Ice particles can be thrown off and cause severe damage The fan casing should be checked so that any fluid entering it either from the fluid cooler or external sources can drain away If fluid is allowed to collect in the fan casing the fan could be frozen into place This could result in damage to the drive system if starting were attempted 3 As cold air enters the fluid cooler it causes the falling fluid to be drawn inward Thus under fan operation the lower periphery of the fluid cooler structure remains partly dry seeing only random splashing from within the fluid cooler plus normal atmospheric moisture from the entering air Such lightly wetted areas are most subject to freezing Although ice is unlikely to cause structural damage it may build up suf ficiently to restrict the free flow of air This effectively reduce the fluid cooler s thermal performance efficiency When excessive ice forms stop the fan for a few minutes With
16. d temperature will rise If the heat load reduces the cold process fluid temperature will reduce Note that the number of degrees range through which the fluid cooler cools the process fluid is established by the system heat load and the amount offluid being circulated in accordance with the following formula formula is only valid for 10096 water as process fluid Heat Load Btu hr GPM x 500 4 Range F Note Note 14 Operation The fluid cooler establishes only the cold process fluid temperature at tainable under any operating circumstance 2 Airwet bulb temperature Cold process fluid temperature will also vary with the wet bulb temperature of the air entering the fluid cooler Reduced wet bulb temperatures will result in colder process fluid temperatures However the cold process fluid temperature will not vary to the same extent as the wet bulb For example a 20 F reduction in wet bulb may result in only a 15 F reduction in cold process fluid temperature 3 Fluid flow rate Increasing the process fluid flow rate GPM will cause a slight elevation in cold process fluid temperature while reducing the fluid flow rate will cause the cold process fluid temperature to decrease slightly However at a given heat load see formula on page 13 process fluid flow reductions also cause an increase in the incoming hot process fluid temperature and thermal range Under no circumstances should the recircul
17. e 2009 SPX Cooling Technologies Inc Printed in USA MO7 1185D
18. hnologies does not assume responsibility for any technical support or damages for problems associate with non Marley brand VFD systems Changing the operational fan speed from the factory settings could cause the fan to operate in an unstable region which may result in damage to the equipment and possible injury A Warning AN Warning A Caution Installation Mechanical Equipment Warranty is void ifthe fluid cooler is operated at speeds which cause damaging vibrations to the fluid cooler and associated equipment When utilizing a variable frequency drive the fluid cooler must be tested across the full range of speeds and checked against CTI guidelines for excessive vibration Speed ranges not meeting these guidelines must be locked out in the VFD Always shut off electrical power to the fluid cooler fan motor prior to performing any maintenance on the fluid cooler Any electrical switches should be locked out and tagged out to prevent others from turning the power back on 1 Spin the fan manually and observe the action of the sheaves and belts to be sure that the motor is properly aligned with the fan sheave See Belt Tensioning and Sheave Alignment on page 21 2 Momentarily bump energize the motor s and observe rotation of the fan s The fan should rotate in a counterclockwise direction when viewed from the fan inlet side from the motor end If rotation is backwards shut off the fan and reverse two of the three primary
19. ilize the services of the fluid treatment supplier Maintain the maximum recommended biocide residual for the specific biocide for a sufficient period of time residual and time will vary with the biocide to bring the system under good biological control or Treat the system with sodium hypochlorite to a level of 4 to 5 mg L ppm free chlorine residual at a pH of 7 0 to 7 6 The chlorine residual must be held at 4 to 5 mg L ppm for six hours measurable with standard commercial fluid test kits If the fluid cooler has been in operation and then shut down for a dura tion of time and not drained perform one of the two previous biocidal treatment programs directly to the fluid cooler storage vessel collection basin drain down tank etc without circulating stagnant fluid over the fluid cooler or operating the fluid cooler fan After biocidal pretreatment has been successfully completed cooling fluid may be circulated over the fluid cooler with the fan off When biocidal treatment has been maintained at a satisfactory level for at least six hours the fan may be turned on and the system returned to service Resume the standard fluid treatment program including biocidal treatment Fluid Cooler Operation General The cold process fluid temperature obtained from an operating fluid cooler will vary with the following influences dis Heat load With the fan in full operation if the heat load increases the cold process flui
20. latform with a ladder for access to the platform Ladder extensions used where the base of the fluid cooler is elevated Safety cages for ladders e Access door platform guardrail system around the perimeter of the platform with a ladder for access to the platform Fluid Cooler Location Space available around the fluid cooler should be as generous as possible to promote ease of to permit freedom of airflow into and through the fluid cooler If you have questions about the adequacy of the avail able space and the intended configuration of the fluid cooler please contact your Marley sales representative for guidance Prepare a stable level support foundation for the fluid cooler utilizing weight wind load and dimensional information appearing on appropriate Marley submittal drawings Supports must be level to insure proper operation of the fluid cooler The fluid cooler must be located at such distance and direction to avoidthe possibility of contaminated fluid cooler discharge air being drawn into building fresh air intake ducts The purchaser should ob tain the services of a Licensed Professional Engineer or Registered Architect to certify that the location of the fluid cooler is in compli ance with applicable air pollution fire and clean air codes A Caution Z Warning Installation Shipment Unless otherwise specified the MC Fluid Cooler ships by truck on flat bed trailers which
21. leads supplying power to the motor If fluid cooler is equipped with a two speed motor check for properro tation at both speeds Check also to see that starteris equipped witha 20 second time delay which prevents direct switching from high speed to low speed 3 Check the torque on the fan and motor sheave after 10 to 60 hours of operation See Bushing Fastener Torque Values on page 21 A Warning 12 Operation Fluid Cooler Start Up Among other sources outbreaks of Legionnaires Disease have reportedly been traced to cooling towers and fluid coolers Main tenance and fluid treatment procedures that prevent amplification and dissemination of Legionella and other airborne bacteria should be formulated and implemented BEFORE systems are operated and continued regularly thereafter to avoid the risk of sickness or death Fluid System 1 Newinstallations should be cleaned and treated with biocides by a fluid treatment expert before startup 2 Remove any and all accumulated debris from fluid cooler Pay particular attention to inside areas of collection fluid basin distribution fluid basins and drift eliminators Make sure that redistribution pump suction screens are clear and properly installed 3 Fill the fluid system to an approximate depth of 13 in the depressed area ofthe collection fluid basin This is the recommended operating fluid level Adjust the float valve so that it is 7596 open at that level Continue filli
22. lets you receive hoist and install the fluid cooler in one continu ous operation Single cell coolers ship on one truck Multicell fluid coolers depending on their size may require more than one truck Responsibility for the condition of the fluid cooler upon its arrival belongs to the trucker as does the coordination of multiple shipments if required Receiving Fluid Cooler Prior to unloading the fluid cooler from the delivering carrier inspect the ship ment for evidence of damage in transit If damage is apparent note the freight bill accordingly This will support your future recovery claim Find and remove the installation instruction drawings and bills of material located in a plastic bag in the collection basin This information should be kept for future reference and maintenance purposes Hoisting Fluid Cooler All MC Fluid Cooler models consist of two modules per cell The upper mod ule includes hoisting clips at the bottom corners Hoisting clips on the lower module are attached to the top at the horizontal cross channels A Hoisting Installation label which has hoisting dimensional information is located on the side casing near the fluid cooler centerline Remove fluid cooler modules from the carrier and hoist into place according to the instructions on the label MC Fluid Cooler upper and lower modules must be hoisted and set separately Do not preassemble modules prior to hoisting Hoisting clips are provided fo
23. mage the VFD Using a VFD in cooling applications has advantages over traditional single or two speed motor control A VFD can reduce the cost of electrical energy being used and provide better temperature control In addition it reduces the mechanical and electrical stress on the motor and mechanical equipment A Warning A Warning 10 Installation Electrical savings can be large during periods of low ambient temperature when the cooling requirement can be satisfied at reduced speeds To benefit from these advantages it is important that the drive be installed correctly Marley supplies VFD and VFD controls specifically designed for our cool ing products If you have purchased a Marley VFD and or controls package please follow the instructions in the User Manual for that system Most VFD problems can be avoided by purchasing the Marley drive system If you are installing a VFD other than the Marley drive please refer to that drives instal lation manual Improper use ofa VFD may cause damage to equipment or personal injury Failure to correctly install the VFD drive will automatically void all warranties associated with the motor and any equipment that is either electrically or mechanically directly attached to the VFD drive system The length of this warranty avoidance will be contingent on properly installing the VFD system and repairing any damage that may have occurred during its operation SPX Cool ing Tec
24. mp motor exterior Coil surface Check Collection fluid basin level Blowdown adjust as required x Lube lines if equipped Check for leaks in hoses or fittings R x Belt drive Fan shaft bearing lubrication every 3 mo every 3 months every 3 months Check and tighten support fasteners x Check shaft sheave and belt alignment Check belt tension and condition x Check sheave bushing fastener torque x Fan Check fan assembly fasteners Motor Lubricate grease as required R Check mounting bolts for tightness Operate at least 3 hours a month 3 hours a month 3 hours a month Basin Heater if equipped Check for proper operation of temp low fluid level sensor Inspect clean buildup of contaminant from sensor Structure Inspect tighten all fasteners Inspect and touch up all metal surfaces R Refer to Component User Manual Note It is recommended at least weekly that the general operation and condition be observed Pay atten tion to any changes in sound or vibration that may signify a need for closer inspection 26 Additional Services Increased load requirements MC Fluid Coolers are designed so that cells of either equal or unequal capacity can be added in the future This allows you to compensate for the load increases that normally occur with the replacement or addition of
25. n the floor of the collection basin Mentally make note of the amount if any so future inspections will enable you to determine the rate at which it is forming Every 3 months Lubricate fan shaft bearings While rotating equipment by hand grease the bearings until a bead forms around the seals a maximum charge of 0 40 ounces is recommended Mobil SHC 460 grease is recom mended A Caution Note Maintenance Semi Annually Clean and disinfect fluid cooler with biocides Systems with biofouling high general bacterial counts or positive cultures of legionella may require additional cleaning Refer to Fluid Cooler Cleaning section page 19 Consult your fluid treatment expert as to prudent biological evaluation testing Annually Relubricate motor s according to the manufacturer s instruc tions Check the belt tension and condition Check to see that all bolts are tight in the fan and mechanical equipment region Refer to Component User Manuals for torque values Inspect the fluid cooler thoroughly making maximum use of instructions given inthe separate user manuals Check structural bolted connections and tighten as required Make preventive maintenance repairs as necessary Seasonal Shutdown Instructions When the system is to be shut down for an extended period of time it is recommended that the recirculation fluid system be drained Leave the basin drains open Draining the coil is not recommended draining promote
26. ng the system until the fluid reaches a level approximately Ye below the lip of the overflow 4 Start your pump s and check for proper rotation as indicated by the arrow on the pump cover observe system operation A certain amount of pump down of the basin fluid level will occur before fluid completes the circuit and begins to fall from the upper module The amount of initial pump down may be insufficient to cause the float valve to open However you can check its operation by pressing down on the operating lever to which the stem of the float valve is attached Some trial and error adjustment of the float valve may be required to bal ance the makeup fluid with fluid cooler operation Ideally the float valve setting will be such that no fluid is wasted through the overflow at pump shutdown However the fluid level after pump start up must be deep enough to assure positive pump suction 5 Open the valve on the fluid cooler bleed line and adjust bleed to the recommended rate See Fluid Treatment section on page 18 6 Continue pump operation for about 15 minutes after which it is recom mended that the fluid system be drained flushed and refilled Operation 7 While operating the recirculating fluid pump s and prior to operating the fluid cooler fan execute one of the two alternative biocidal treatment programs described in the following Resume treatment with the biocide which had been used prior to shut down Ut
27. of the specific treatment program you choose AN Warning Operation Fluid Cooler Cleaning Any evaporative type fluid cooler must be thoroughly cleaned on a regular basis to minimize the growth of bacteria including Legionella Pneumophila to avoid the risk of sickness or death Service per sonnel must wear proper personal protective equipment during decontamination Do NOT attempt any service unless the fan motor is locked out Operators of evaporative cooling equipment such as closed circuit fluid cool ers should follow maintenance programs which will reduce to an absolute minimum the opportunity for bacteriological contamination Public Health Service officials have recommended that good housekeeping procedures be followed such as regular inspections for concentrations of dirt scale and algae periodic flushing and cleaning and the following of a complete fluid treatment program including biocidal treatment The visual inspection should take place at least once a week during the op erating season The periodic flushing and cleaning should be done before and after each cooling season but in any event at least twice a year The drift eliminators easily accessible surfaces and the coil should be flushed by use of a moderate pressure fluid nozzle being careful not to cause physical damage A reliable fluid treatment program should be installed and maintained Filtration devices may be employed to reduce the suspended solids
28. ooler according to the MC Fluid Cooler Field Installation Draw ing instructions Place top module on the top peripheral bearing surface of bottom module aligning mating holes as it is set in place Attach top module to bottom module with fasteners provided according the MC Fluid Cooler Field Installation Drawing instructions 4 Connect the recirculation piping with rubber coupling shipped with the bottom module piping according to drawings shipped with you fluid cooler 5 Attach makeup fluid supply piping to appropriately sized float valve con nection located in collection fluid basin side wall Install the drain and overflow according to the MC Fluid Cooler Field Installation Drawing instructions If you wish to pipe overflow and drain fluid to a remote dis charge point make those connections at this time also Fasteners and components provided by others that are to be at tached to the fluid cooler must be compatible with the fluid cooler materials i e fasteners in a stainless steel cold process fluid basin must be stainless steel m A Caution A Warning Note Installation 6 Attach process fluid supply and return piping to the coil Standard field piping connection is an NPT male connection at the coil A flanged con nection requires a gasket between the fluid cooler and the fluid supply piping For welded connections protect adjacent areas from excessive heat and sparks or damage may occur 7 Wire motor s
29. production equipment and still retain continuity with respect to your fluid cooler system Fluid cooler rebuilding SPX routinely rebuilds and upgrades fluid coolers and cooling fluid coolers of all materials and manufacture If your product ever reaches the limit of its service life we recommend that you investigate the cost of rebuilding before you routinely order a new replacement fluid cooler Each MC Fluid Cooler includes a document package containing general orientation drawings and fluid cooler component manuals These documents contain important information relating to safe installation and operation of the fluid cooler Field installation is required for some optional accessories A separate installation drawing or manual for each purchased option is included in the document package along with bills of material If you have purchased an option and can t find the appropriate installation drawing contact your local Marley sales representative before proceeding In addition to these specific documents numerous technical reports are published by SPX including more detailed information on a variety of cooling fluid cooler and fluid cooler operation and service topics Electronic copies are available for download from our website at spxcooling com For complete parts and service assistance contact the Marley sales repre sentative in your area If you need help locating your representative please phone 800 462 7539 or check the internet at
30. quires a starter with a shorting contactor Two winding motor requires a starter without a shorting contactor All two speed starters must have a 20 second time delay relay when switching from high speed to low speed Do not start the motor more than four to five times per hour each low speed start and each high speed start count as one start When using a VFD Before beginning ensure that the motor is rated for Inverter Duty per NEMA MG 1 part 31 Set the VFD solid state overload protection to 119 of motor name plate amps and set maximum current parameter in the VFD to motor nameplate amps Maximum current parameter will reduce fan speed and limit amp draw to nameplate amps during cold weather opera tion If furnished with a mechanical O L set this at 11096 over motor nameplate amps Motor rotation must be the same in both VFD mode and By pass mode If cable distance between the VFD and motor is greater than 100 feet a DV DT output filter is recommended to avoid damage to the motor 100 feet distance is based on our field experience the VFD manufac ture may state different distances and distance does vary depending on the VFD manufacture Program the VFD for variable torque output Flux vector and constant torque modes may damage the gearbox Do not start and stop the motor using the safety switch at the motor If the drive is being commanded to run and the load side is cycled ON and OFF with the safety switch this may da
31. r bolts and tighten as required Do not start motor before determining that there will be no interfer ence with free rotation of the fan drive The motor s should be operated for three hours at least once a month This serves to dry out windings and re lubricate bearing surfaces Refer to the Marley Electric Motor User Manual Manual 92 1475 available at spx cooling com Atstartof new operating season make sure bearings are adequately lubricated before returning motor to service Prolonged Shutdown If shutdown period is longer than seasonal contact your Marley sales repre sentative for additional information Maintenance SPX Cooling Technologies Services Our interest in your MC Fluid Cooler does not end with the sale Having con ceived designed and manufactured the most reliable and longest lasting fluid cooler of its class we want to make sure that you gain the maximum possible benefit from its purchase Therefore the following services are available which are intended to assure the maximum possible service life under your operating conditions tailor the operating characteristics to your specific needs and maintain consistently optimum thermal performance capability Electronic copies are available for download at spxcooling com Replacement parts A complete stockof parts and components is maintained at one or more of the various Marley plants In cases of emergency they can normally be shipped within 24 hour
32. r ease of unloading and positioning the fluid cooler For overhead lifts or where additional safety is required safety slings should also be placed under the fluid cooler modules Under no circumstances should you combine the top and bottom modules of modular models and attempt to hoist them at the same time by utilizing the hoisting clips alone Note Note Installation Fluid Cooler Installation These installation instructions are intended to help you prepare before yourfluid coolerarrives If discrepancies exist between these instructions and those shipped with the fluid cooler the instructions shipped with the fluid cooler will govern 1 Priorto placement of the fluid cooler confirm that the supporting platform is level and that the anchor bolt holes are correctly located in accordance with Marley drawings 2 Placebottom module on your prepared supports aligning anchor bolt holes with those in your supporting steel Make sure that the orientation agrees with your intended piping arrangement Attach fluid cooler to supporting steel with diameter bolts and flat washers by others See support drawing for location and quantity Position flat washers between the bolt head and the fluid cooler basin flange 3 Before setting top module in place on bottom module clean any debris from the underside of the top module skid and beams and from the top of the bottom module Apply the mastic sealing strip supplied with the fluid c
33. s by air freight if necessary However you would obviously benefit from anticipating your need in advance thus avoiding the cost of special handling Be sure to mention your fluid cooler serial number from the fluid cooler name plate when ordering parts Periodic maintenance You may wish to contract with SPX Cooling for regularly scheduled visits for the purpose of inspecting and reporting your fluid cooler s condition to make recommendations intended to prevent emer gencies and to perform maintenance considered outside the norm This service is not intended to replace the important function performed by your maintenance staff Their attention assures the fluid coolers s routine operating performance and is invaluable However we recognize that the unusual manner in which a fluid cooler performs its function as well as the unique forces which act upon it may be considerations which occasionally require the services of an expert technician 25 Maintenance Schedule Maintenance Service Monthly Semi annually Seasonal Startup or Annually Inspect General Condition and Operation Observe Operation of Mechanical motor pump fan and drive mechanism x Makeup valve if equipped x x Inspect for unusual noise or vibration Inspect and Clean Air inlet PVC drift eliminators Distribution system and nozzles Collection basin Fan and pu
34. s corro sion inside the coil tubes See protecting coil in Freezing weather on page 17 During shutdown clean the fluid cooler see Warning page 19 and make any necessary repairs Eliminators and louvers are easily removed to gain access to the coil Pay particular attention to mechanical equipment supports and sheaves or coupling or drive shafts Following each year s shutdown and cleaning inspect the fluid cooler s metal surfaces for evidence of the need to apply a protective coating Do not mis interpret grime as a need to have the fluid cooler painted If relatively bright metal can be exposed by cleaning consider that the galvanizing has remained effective Unless there is evidence of a generalized failure of the galvanizing localized touch up should be all that is required To the extent that the galvanizing zinc coating still exists paint will not adhere to it readily Contact the manufacturer of the coating you intend to use for instructions La 23 A Caution 24 Maintenance Fluid cooler framework Check structural bolted connections and tighten as required Fans Check fan assembly bolting and tighten as required Use torque values prescribed in the Fan User Manual Fans shaft bearings Lubricate fan shaft bearings at close of each operating season see page 22 Electric motors Clean and lubricate motor at close of each operating season refer to motor manufacturer s recommendations Check motor ancho
35. tia Broken rotor bars Look for cracks near the rings A new rotor may be required Have motor service person check motor Wrong motor rotation Wrong sequence of phases Switch any two of the three motor leads 28 Troubleshooting Trouble Cause Remedy Unusual fan drive vibration Loose bolts and cap screws Worn fan shaft bearings Unbalanced motor Tighten all bolts and cap screws on all mechanical equipment and supports Check fan shaft endplay Replace bearings as necessary Disconnect load and operate motor If motor still vibrates rebalance rotor Fan noise mpeller rubbing inside of cylinder Adjust fan impeller Adjustment may need to be axial i e moving impeller along the shaft to centralize it between the cylinders or radial by repositioning bearing or bearings to get the impeller concentric within the inlets Fan shaft bearing Grease bearings Belt squeal or chirping Belt slipping Adjust belt Scale or foreign substance in circulating fluid system nsufficient blowdown See Fluid Treatment section of this manual Fluid treatment deficiency Consult competent fluid treating specialist See Fluid Treatment section of this manual Cold fluid temperature too warm See Fluid Cooler Operation Entering wet bulb temperature is above design Check to see if local heat sources are affecting fluid cooler See if surrounding s
36. ting end belt guard Reinstall or replace fan Motor runs hot Motor does not come up to speed Wrong voltage or unbalanced voltage Check voltage and current of all three lines against nameplate values Wrong motor RPM Check nameplate against power supply Check RPM of motor and drive ratio Bearing overgreased Remove bearing reliefs Run motor up to speed to purge excessive grease Wrong lubricant in bearings Change to proper lubricant See motor manufacturer s instructions One phase open Stop motor and attempt to start it Motor will not stat if single phased Check wiring controls and motor Poor ventilation Clean motor and check ventilation openings Allow ample ventilation around motor Winding fault Check with ohmmeter Bent motor shaft Straighten or replace shaft Insufficient grease Remove plugs and regrease bearings Too frequent starting or speed changes Deterioration of grease or foreign material in grease Bearings damaged Voltage too low at motor terminals because of line drop Limit cumulative accelerations time to a total of 30 seconds hour Set on off or speed change set points farther apart Consider installing a Marley VFD drive for fine temperature control Flush bearings and relubricate Replace bearings Check transformer and setting of taps Use higher voltage on transformer erminals or reduce loads Increase wire size or reduce iner
37. tructures are causing recirculation of fluid cooler discharge air Discuss remedy with Marley representative Design wet bulb temperature was too low Actual process load greater than design May have to increase fluid cooler size Discuss remedy with Marley representative May have to increase fluid cooler size Discuss remedy with Marley representative Overpumping Reduce fluid flow rate over fluid cooler to design conditions Fluid cooler starved for air Check motor current and voltage to be sure of correct contract horsepower Clean eliminators Check to see if nearby structures or enclosing walls are obstructing normal airflow to fluid cooler Discuss remedy with Marley representative Excessive drift exiting fluid cooler Faulty drift elimination Check to see that eliminators are clean free of debris and installed correctly Replace damaged or worn out eliminators panels Fluid leaking from fan scroll Fluid level in fluid cooler too high Adjust fluid level to correct level Multiple fan motors serving a single coil section not being cycled simultaneously Ensure all fans are operating simultaneously and at the same speed 29 SP COOLING TECHNOLOGIES 7401 WEST 129 STREET OVERLAND PARK KANSAS 66213 UNITED STATES 913 664 7400 spxcooling spx com spxcooling com In the interest of technological progress all products are subject to design and or material change without notic
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