OilView® Quick-Check User Manual
Contents
1. Quick Check MJR Technologies LLC 23 The following conditions will cause an increase in the chemical index e corrosive products of high temperature oil oxidation and nitration e acids formed from combustion by products such as sulfuric acid in diesel engines e presence of dispersed water or coolant e high levels of very fine suspended particles such as soot dust road salt or fine wear debris Note Remember that a reference sample must be assigned to the sample in order to obtain a chemical index If a reference is not available the chemical index will not be given Water Estimate This estimate is a measure of the level of oil insoluble contaminants in the oil Some common contaminants include water glycol coolants metallic wear debris and road dust This index may also increase if solid additives have been added to the oil The interplay of water the oil and its additives and the operating environment can be extremely complicated and make repeatable results difficult The additives present in the oil will largely determine the response of the Water Estimate Turbine oil is engineered to facilitate the coalescence and settling out of water Multi grade engine oil attempts to disperse and suspend the water particles A hot environment will boil off water and a cold one will encourage condensation The action or inaction of machinery may assist water dispersal or coalescence Additives will continue to chemically react with the water un2. of oils having similar dielectric 0 2 dielectric units before proceeding to a different oil type Clean the grid two times to prevent cross contamination In addition to wiping the grid after a test you should apply a small amount of the next oil to be tested onto the surface of the grid and thoroughly wipe it a second time Then return the sensor to the analyzer and test the sample This procedure is intended to wet out the surface of the sensor with the next oil completely removing any trace of the previous oil or solvent OilView Quick Check MJR Technologies LLC 17 Verify Calibration After initially calibrating your grid using the supplied calibration fluids verify the calibration by testing a reference oil dilution will not be necessary Results should agree within 01 dielectric This quick test may indicate that the grid needs to be recalibrated or that an offset should be applied to dielectric results A dielectric offset will not interfere with the Iron index water estimate and large contaminant indication As a further aid the PC software will display a chart of calibration history at the completion of calibration or on request from the main menu Synthetic Oils Since synthetic lubricants such as phosphate ester polyol ester or diester have vastly different properties from typical mineral oils extra precautions are necessary to clean away any residual of the synthetic before resuming tests with mineral oils or vice
3. E EiEEE eker kek k k eke keke k k ek erke 20 OilView Quick Check Analyzer Detection LimilS LiEE ekr k k ekere eke kk 22 Applying the OilView Quick Check Analyzer EEE keke eke erkeke keke k k erkeke ke kk k k k re 22 TestResullS iia A Sernshben cheated Sand eae eed eee 23 OilView Quick Check PC Software errrereeeeeeeeeeeeee cene eene ee ce HK HHH KK HH HHHH HK HHHH HH HHHH KK HHHH KK HK AHKKK 26 Installation e _ mm mm 26 Sai mn 26 SOU Ni A ade dete ree eed Rae 27 Database Open Screen sss misle bie k KL den a 28 Main Program WindOw a 4 i5d a xirs eda KK ked ak rk berd ci EENE AE RAE R a 29 Sample Dalai a 30 Reference Windows ii a 32 ANA VV ING Wet nan nae A o A e e A hee SM otal i 34 Ropon WINGOW yd tir e Ken dai AR iren bere R Ke HAA ae De e dee Aa Mai e na kena eee 35 Customer WindOW toos 37 HAS WN o rrr e dalele ott ANd 38 Gall History 2 coh AEE A E a o o Aya 39 AAA A VIRE eee BA WBA VA G AA 42 DielectricicOnstad cocinas ooo aleda 42 How theQuick Check WOrK Sc 2s k4x55 ya al ira cia aa 42 OilView Quick Check MJR Technologies LLC 2 Introduction How To Use This Manual This manual describes the operation of OilView Quick Check instrument and software Manual Conventions These conventions are used throughout this manual to call attention to the adjacent text Note The Note paragraph indic
4. and should not be turned off until after all tests have been completed Before analyzing oils the OilView Quick Check Analyzer should be operated through one entire test sequence to preheat the electromagnet Note t necessary the fuse next to the power connector can be replaced with a standard 2 amp fuse OilView Quick Check MJR Technologies LLC Example Test Session Calibration Turn on power to the OilView Quick Check unit After briefly displaying a copyright notice the unit will enter Calibration mode If connected to the PC software and configured to download calibration data the most recent calibration will be downloaded and the unit will enter Test mode Calibration mode may still be entered by plugging and unplugging the sensor grid 3 times within 30 seconds of power up It is recommended that the unit be calibrated daily or when ambient temperature and humidity change Special care must be taken when calibrating since this will affect all dielectric tests until the next calibration Best practices for grid cleaning should be followed Calibration may be verified by testing a calibration fluid or known reference oil OilView Quick Check Display Calibrating Plug Clean Grid After plugging the clean sensor grid into OilView Quick Check Calibrating Is Clean Unplug Upon unplugging the grid Calibrating Test Fluid 220 Add fluid 220 to sensor grid plug into
5. 1 ppm gt 5u Fe lt 50 ppm gt 5H W lt 1 ppm gt 40j LC Ferrous Copper All 50 ppm gt 5H W lt 1 ppm gt 40p LC Nonfer Tin All 50 ppm gt 5H W lt 1ppm gt 40p LC Nonfer 50 ppm gt 5H W Instead of affecting the Water estimate it may Lead Al cause a chemical index response due to chemical oxidation of the lead particles The process of oxidation makes them electrically nonconductive K the Dielectric constant Fe the ferrous index C the chemical index calculated in PC software if Reference oil selected W the water estimate LC qualitative large ferrous or large non ferrous or droplets Applying the OilView Quick Check Analyzer For clean fresh oils the OilView Quick Check Analyzer Iron index and Water estimate should be at or near zero Dielectric should match prior values for the same reference oil Variations are possible due to supplier changes in additives and formulation Increasing values indicate increasing levels of degradation or contamination These values can be trended over time manually or by using OilView Quick Check software Look for increasing values over time A sharp upward increase in a value is a strong indication of a new or worsening lubrication problem Do not be hesitant to use a commercial laboratory service if you are having any problem in interpreting an OilView Quick Check result OilView Quick Check MJR Technologies LLC 22 The
6. IRON O NO LRG DIEL 2 31 W 0 00 The IRON reading is a measure of abnormal wear particles larger than 5 microns This value should be trended over time as gearboxes and transmissions will naturally have higher values The value to the right of IRON is the large contaminant indication This can be one of several values Value Meaning NO LRG No Large Contaminants detected DROPS Droplets LRG FE Large Ferrous LF D Large Ferrous amp Droplets NF Large Non Ferrous NF D Large Non Ferrous amp Droplets LF NF Large Ferrous amp Large Non Ferrous FNFD Large Ferrous amp Large Non Ferrous amp Droplets Any value other then NO LRG is undesirable and may warrant additional investigation At the start of the second line the previously calculated dielectric is redisplayed The suitability of the oil for future use can be determined by comparing with the dielectric of the reference oil This comparison is performed automatically by the PC software The comparison can also be performed manually by subtracting the reference oil dielectric from the sample and multiplying by 100 Oil should be changed before this index reaches 10 Lastly the W is the water estimate The cycle is complete when the grid is unplugged Testing Plug Clean Grid OilView Quick Check MJR Technologies LLC 13 Best Practices Collecting Oil Samples The key factor in any oil and machin
7. LLC 40 Manual Log If a PC is not available or practical for your application you may wish to manually record test results An example log sheet is included on the software distribution CD QuickCheckManualLog doc Feel free to modify as required Equipment ID Reference Dielectric l Reference Viscosity Date Unit Oil Oil Dielectric Chem Fe Water Large Visc Visc Comments Usage Usage Added Contam 40 C Chg OilView Quick Check MJR Technologies LLC 41 Appendix B Dielectric constant The dielectric constant is a measure of a materials response to an electric field The dielectric constant along with melting point boiling point refractive index and viscosity is a fundamental property of a material For simple compounds these properties correlate well with the dielectric constant A dielectric constant represents the sum of two different component properties the polarization and the dipole moment Polarization measures the interaction of a molecule at high electric fields so that only the electrons rather than the entire molecule can respond to the electric field frequencies A dipole moment measures the center of gravity of the positive and negative charges in a molecule By definition the dielectric of a vacuum is 1 0 Most lubrication oils will have a dielectric of 2 1 2 4 Many synthetic oils have dielectrics in excess of 6
8. OilView Quick Check Add Calibration Fluid to this level OilView Quick Check MJR Technologies LLC 8 After plugging in grid with Fluid 220 Calibrating Unplug Grid After unplugging the grid OilView Quick Check will display Calibrating Plug Clean Grid If a grid is not sufficiently clean an error tone will sound and the device will display Calibrating Unplug Re Clean After plugging in a clean sensor grid Calibrating Is Clean Unplug Upon unplugging the grid Calibrating Test Fluid 300 Add fluid 300 to sensor grid plug into OilView Quick Check Calibrating Finished Unplug After unplugging the grid OilView Quick Check will display Testing Plug Clean Grid Special Notice It is especially important to thoroughly clean the sensor before calibrating or verifying The effects of cross contamination during calibration will affect all of the measurements made until the next calibration Be sure to clean the grid at least two times using the same calibration fluid that is to be tested You must wipe the sensor surface completely dry using tissue paper during each cleaning operation Keep in mind that Fluids 220 and 300 are very different in dielectric each one must be completely removed before continuing with the next measurement OilView Quick Check MJR Technologies LLC Test This section describes a typ
9. and dragging to the desired location Windows may be resized by selecting the lower right hand corner of the window Selecting a window will move it to the top of any windows covering it The Sample Data window should figure prominently in any re layout since the other screen are synchronized with the sample selection A closed window may be restored by selecting it from the Windows menu Best results are achieved by selecting higher resolution setting for the computer monitor and running the program in full screen mode Note Selections on the Alarms Reference Customer and Report windows are synchronized with the current selection on the Sample Data window OilView Quick Check MJR Technologies LLC 29 Sample Data Sample Data Sample 16 4 26 2004 9 53 24 AM Y 0 00 15 9 26 2004 9 51 32 AM 58492 ENG 85 i 0 09 14 4 26 2004 9 48 56 4M 85 E E 715 0 00 13 4 25 2004 4 13 28 PM 8 E 3342 0 00 ji 12 1 25 2004 4 01 18 PM 58492 ENG 85 E J 0 25 11 4 23 2004 8 56 09 PM 58492 ENG 5 E a 0 44 10 4 23 2004 8 45 08 PM 85 i 999 0 00 9 4 23 2004 8 41 47 PM s 0 00 8 4 23 2004 8 24 15 PM y 0 00 7 4 23 2004 8 12 02 PM s 0 00 6 4 23 2004 1 26 59 PM 2234234234 8 LE 0 00 5 12 23 2003 11 46 38 AM lt Delete Sample s Recalculate Alarm s Export to CSV Export to CSI Visc Chng Visc 40C Comments __ i i 65 4 22 0 Severe wear is occurring Wear debris analysis may be helpf
10. extrapolation Perfluorinated ether PFE Yes Incorrect water estimate Dielectric extrapolation Phosphate ester PhE Yes Need special grid Dielectric extrapolation ransformer oils Maybe Requirements may exceed device sensitivity Liquid hydrocarbon fuels Maybe Requirements may exceed device sensitivity Bunker fuels Yes ater oil emulsions No ater shorts out test grid rease Yes est dissolved grease sample Fluids with dielectric gt 16 0 No Exceeds device range Since the sensor grid has no sensitivity above a dielectric value of 16 high dielectric fluids cannot be tested Most mineral oils have a dielectric of 2 to 3 most synthetics have a dielectric of 2 to 7 water has a dielectric of 78 and conductive materials like metals have infinite dielectric It is necessary to extrapolate rather than interpolate for oils outside the range of the calibration fluids The dielectric will not be accurate but results will be repeatable and sufficient for difference comparisons Warning J Consult your Safety department be aware of flammability characteristics and skin contact restrictions for solvents and oils Sensor Curing When the OilView Quick Check Analyzer is first unpacked it will be necessary to cure the sensing grid As delivered the grid may contain air in the interstitial space between fibers in the substrate It is necessary to cure the grid by allowing clean oil to stand in the sensor for a few hours The oil will displace the air poc
11. extremely sensitive to moisture and temperature Daily calibration is recommended However it may be convenient to use the most recent calibration The calibration can be verified with a known reference Offsets may suggest calibration is necessary Offsets may be mentally applied to results or applied to the reference oil Customize Report Company specific information may be entered in order to customize the supplied report Of special note a company logo may be supplied Logo Bitmap and the colors may be adjusted with the Report Colors slider bar Database Open Screen Select Name for New Database Look in OilViewOC s de c EE E My Recent Documents Y ys File name h Open My Network Files of type Databases mdb y Cancel Places Open as read only f Click the File name field enter the name of the database you wish to create and select open Ordinarily the most recent database will be opened automatically New databases may be created by selecting Create New Database from the File dropdown menu OilView Quick Check MJR Technologies LLC 28 Main Program Window le OilViewOC Monitor C Program Filesi0ilVie YZexpress mdb File Edit Windows Setup Help Sample Data Date Equip ID Unit Usage Oil Usage Oil Added Wear Sev Contam Sev 26 5 19 2004 6 13 36 PM 25 5119 2004 6 10 20 PM 24 5119 2004 6 07 17 PM 23 5119 2004 5 59 33 PM 22 5 19 2004
12. remember to apply common sense in correlating your sampling technique and test results to your application Warning J Hot oil may cause severe burns and used oil should never be allowed to remain on your skin or clothing Consequently be extremely cautious when sampling oil from a hot or pressurized system Never handle very hot oil with a plastic bottle as the bottle may melt or deform Use an intermediate clean metal container to cool the oil if necessary If a metal container is used remember to shake it vigorously before transferring the oil to a plastic bottle The OilView Quick Check Analyzer is designed to work with room temperature oils Dielectric will vary with temperature due to thermal expansion of the oil Warning J Follow standard practice procedures for health and safety as established by your safety department when collecting oil samples or handling new and used lube oils hydraulic fluid and transformer oils Sampling Hints A few hints about sampling techniques e Do not take the cap off the sample bottle until you are ready to sample As soon as the sample is taken replace the cap This will help to keep dust moisture and dirt out of the sample Do not fill the bottle completely to the top A partially full bottle allows the contents to be more easily agitated by shaking prior OilView Quick Check MJR Technologies LLC 14 to testing and also allows for easier dilution if required For consistent Fe indexes i
13. should be readily apparent to the user and will not result in product damage Such a condition is intended and normal Any questions regarding proper operation of this product should be directed to MJR Technologies LLC OilView Quick Check MJR Technologies LLC 3 Quick Start Calibration 1 Turn power on 2 Following instructions on device display plug clean test grid into device 3 Unplug grid and fill to first offset with Calibration Fluid 220 4 Plug grid into device 5 Unplug grid 6 Following instructions on device display plug clean test grid into device 7 Unplug grid and fill to first offset with Calibration Fluid 300 8 Plug grid into device Device should now be calibrated Test 1 Following instructions on device display plug clean test grid into device 2 Unplug grid and attach undiluted sample 3 Plug grid into device observe dielectric reading 4 Unplug grid 5 Dilute sample 6 Plug grid into device 7 At test completion analyze record results 8 Unplug Grid OilView Quick Check MJR Technologies LLC Setup Oil Compatibility Chart The following table lists various oils that can and cannot be tested using the OilView Quick Check Analyzer Oil Type Test INotes Mineral oil Yes Polyalphaolephin PAO Yes Synthetic hydrocarbon SHC Yes Polyol ester POE Yes Dielectric extrapolation IDiester Yes Dielectric extrapolation Polyalkalene glycol PAG Yes Dielectric
14. that large iron particles probably much larger than 60 um were detected The magnet north south plots should show upward spikes for tests reporting Large Ferrous or LF Large Non Ferrous indicates that large usually much larger than 60 um non ferrous particles such as copper aluminum tin lead or chrome were detected The magnet off plots should show upward spikes for tests reporting Large Non Ferrous or NF Droplets indicates that water droplets or similar fluid droplets were detected All three plots magnet off north south should show spikes or sharp changes in slope for tests reporting Droplets or D Note Any Large Contaminant Indication other than No Large Indications may indicate a serious problem OilView Quick Check MJR Technologies LLC 25 OilView6 Quick Check PC Software Installation Insert software CD into CD drive With Windows Explorer navigate to CD drive and run the Setup exe in the root directory Follow instructions accepting defaults or changing as desired Note PC software is not required for normal operation of the OilView Quick Check Analyzer However data storage trending and reports are useful tools for implementing a successful oil analysis program Startup The first time the OilView Quick Check Analyzer software is started on a computer the user will be prompted to enter the communications port oilviewqc Please specify serial port for Oil iew unit The next sc
15. 5 41 37 PM 21 5119 2004 1 52 53 PM 20 5 6 2004 2 32 03 PM 58492 ENG 58492 ENG 13 4 25 2004 4 13 28 PM 12 1 25 2004 4 01 18 PM 58492 ENG 11 4 23 2004 8 56 09 PM 58492 ENG Delete Sample s Recalculate Alarm s Export to CSV LEL diN n E Status Y Alarms Default Gear Simple Other ES MJR Technologies LLC Equipment Alarm Limit Set 4390 Clearwater Way 602 Engine Unknown i i L exin gto n KY 4 0 5 1 5 Available for Test Compressor Unknown 859 245 3713 PumplUnknown mike mjrtechnologies com Alarm Sample Alarm Default Alarm Ferrous Idx 814 Delete Set Clear Set Clear Calibrating Reference Default Exxon Terresstic SHP 320 Brand Name Oil Description Date Dielectric Visc 40 Convoy 10W50 1181999 2 272 Sunvis 932 1181999 2191 DX Super C 40 1181999 2 279 Refris Oil 24 1181999 2 300 790 1181999 4119 1999 12 15 2004 Reference Sample Reference Default Reference Customer Sample Customer Add Delete Set Clear Set Clear Add Delete Set Clear The default window size and placement may be improved by the user and will be restored in future program executions For example if there are no Customers for this application or no interest in Alarm settings these screens may be closed minimized or moved towards the edge of the screen Windows may be moved by positioning the mouse on the title bar depressing the left mouse button
16. OilView Quick Check User Manual May 2010 OilView Quick Check MJR Technologies LLC INTFO A k y dy 16140 55044 0509500 s 95 6 3005a K d 8 S H S S l sk be du 5 K d V5 V S ES b R ke a ke Ve 63 dek k 4E S a a n 3 How To Use This Manual an dy d k Ka ek laley ke Ke aa eh aaa arena A ea k KA a ek w d yake 3 QUICK SIR EL i i 545 i H5i 4x84508y sa sar sie d s A H de 9H s k sp SEKO dee s p Hed 9 i s V p pa e e be VE HA de G 4 Ca a o e 4 MO ia aia 4 Z NAN A e e raoa_orreeeddddd dddr AREE AAE 5 Oil Compatibilty Chien r e ae ee eee SL a A R 5 SENSO CUMING e E Mate esate A EA E odio iver ASRS 5 OilView Quick Check Initial Hardware SetUp iEEiE ekere keke k k eke k keke k k rek kk kk kk 6 Example Test SCSSION i4x xi yad kel n d keleke ye k se re c k ye V na Ke dewe ve ke ewe H k r E k s soi E ke ewe a We c9 G6 n 8 Calibrador e Kev e dee e de AR 8 MESE et A O e de a teeny 10 A ONO 14 Collecting Qil Sampl St s teta aoe a eee 14 Gleaning the SENSO Grid iii o a 16 Dilution Of Samples lia Cees 17 OilView Quick Check Analyzer Usage Tips reee eke keke keke k k ereke keke k k r kek k r 17 NON 20 Where To Use the OilView Quick Check Analyzer
17. Water has a dielectric of 75 at room temperature When comparing a sample dielectric with the reference oil a 0 02 change is negligible and a 0 10 change is large For example a 0 10 increase in dielectric could be caused by a 0 6 increase in TAN or 0 11 water or some combination of the two These values will depend on the brand of oil used and can be established in cooperation with a commercial lab Soot oxidation and fuel dilution can also change the dielectric constant How the Quick Check works The Quick Check measures the dielectric over time as contaminants settle onto the sensing grid The sensor grid acts as a capacitor in an RC circuit with the oil in the vicinity of the grid as the dielectric medium A timer oscillator circuit outputs a frequency that varies with the capacitance The unit calibration associates the output frequency with the known dielectric of the calibration fluids Free water will sink to the grid and is easily detected due to the much higher dielectric constant of water The instrument has a permanent magnet and an electromagnet to facilitate the detection and clarification of ferrous particles Readings are taken with the electromagnet off North and South polarity This will cause magnetic particles to stand up and lay down changing the spacing between the grid lines and resulting in diverging plot lines Chemical Index The chemical index is the change in dielectric between a reference oil and a test sample Am
18. ates special comments or instructions Caution The Caution paragraph alerts you to actions that could have an effect on the equipment or the collected data Warning J The Warning paragraph warns you of actions that could cause serious injury or death OilView Quick Check Disclaimer The OilView Quick Check instrumentation and software aids the user in diagnosing oil lubricating and machine wear problems Because of the complexities of real world problems there are no claims or guarantees that OilView Quick Check will correctly solve all of the problems encountered Questionable results should be sent to a reputable oil analysis laboratory for a more comprehensive analysis than OilView Quick Check is able to perform All results must be considered as advisory information only and should be weighted carefully by the personnel who are responsible for maintenance actions which are taken MJR Technologies LLC does not accept any liability with regard to the actions performed or omitted by those using this equipment The user is responsible for the safety of personnel and machinery The user should consult their safety department for the recommended methods of handling storing and ventilating volatile and lubricating materials Electrostatic Discharge or Other Harsh Environments In unusually harsh operating environments operation of this product may require reset and or restart of the function in progress This user recoverable condition
19. ations below 100 ppm In addition the OilView Quick Check Analyzer will indicate when free water droplets are present in the oil Avoiding free water is important because water droplets can disrupt hydrodynamic and elastohydrodynamic lubrication of load bearing surfaces The OilView Quick Check Analyzer is also sensitive to the corrosive potential of the water For example it will give a much higher reading for saltwater contamination than contamination with fresh water Gear Oils The OilView Quick Check Analyzer is an excellent tool for monitoring the condition of gear oils It will detect water and ferrous wear debris Large chips resulting from fatigue wear of gear teeth are very easily detected Bearing Lubricating Oils Many industrial lubrication applications such as fans electric motors and compressors have oil lubricated bearings with relatively small oil capacities Lubricating oil in many of these applications has a relatively long service life and oil analysis is often not applied for reasons of cost However OilView Quick Check Analyzer testing permits inexpensive monitoring of these oils for contaminants and bearing condition OilView Quick Check MJR Technologies LLC 20 Typically roller element bearings produce easily detectable ferrous debris when failing This debris is often detectable before any other symptoms of abnormal wear can be seen Sleeve bearing failure may also be detected if a ferrous shaft is expe
20. ck Check MJR Technologies LLC 34 Report Window alk x A E High Fault MJR Technologies LLC EE Low Falut 4390 Clearwater Way 602 b ear Lexington KY 40515 ET High Alert sino 859 245 3713 Low Alert mike mjrtechnologies com EBI Normal John Smith 447 Oak Street Lexington KY 40513 859 555 1234 JohnSmith hotmail com Ferrous ldx 814 saa sasi EE Ref Oil Valvoline Max Life 1030 0725 2004 11 20 2014 Sample Date 11 29 2004 9 26 2004 4 23 2004 1 25 2004 Chemical Ids Sample 17 15 11 12 173 Unit Usage 3 0 0 Oil Usage 3 4 7 5 Oil Added 3 5 0 0 Wear 0 0 Ferrous ldx ToO 1 LCor t F 0 esteril E31 1 25 2004 11 29 2004 Contamination Water 0 00 0 09 0 44 0 25 Water LCont Droplet o EZ HESEN LCor t NonFe j Chemistry Chemical ldx Dielectric 2 30 3 26 3 77 3 56 Visc Chng 65 4 0 0 Vise 40C 22 0 1 25 2004 11 29 2004 Severe wear is occurring Wear debris analysis may be helpful in establishing the source The Report window summarizes test and trend data for a sample A non blank Equip ID is required before data can be displayed Prior samples with a matching Equip ID will be retrieved for historical trending Sample Unit Usage Oil Usage Oil Added Visc 40C and Comments for the current sample may be modified by OilView Quick Check MJR Technologies LLC 35 selecti
21. e Oil Description Date Dielectric visc 40 Cor klir Convoy 104450 1484999 2 272 114 60 Sunoco Sunvis 932 1181999 2 191 30 60 Sunoco DX Super 40 1181999 2 279 145 60 Frick Refris Oil 24 1464999 2 300 56 20 Inpro Synergy 790 1181999 2 884 59 10 D 4 Lubricant Sullair AVF 4119 1999 2 387 34 20 Add e Set Clear Set Clear Reference is Reference ieee Reference The Reference oil is extremely important The Chemical and Visc index readings are relative to a reference sample and will not be correct if the correct Reference is not used The reference oil sample should be a new oil of the same type and from the same source as the used test oil If for any reason a known reference oil is not available it is probably best to conduct your used oil tests without a reference oil or against a previous test from the same machine In selecting a reference oil remember that oil suppliers may change additive packages refineries and oil sources without notice Therefore there is no assurance that a reference sample taken after the fact from a new oil drum can be applied to a test oil that originated from a previous drum even though the oil is of the same type and from the same supplier Reference Add Delete Oils can be added to the list of Reference oils by selecting the Add key Enter the required information in each field You may delete a Reference with the Delete key as long as the Reference is n
22. e condition monitoring program is consistency in collecting samples Any oil monitoring program will probably fail if careful attention is not paid to your sampling technique Therefore you must always sample from the same location in the same manner and under the same machine conditions The location from which the oil is sampled should always be from the same plug valve or port In general oil should be sampled from a location where the oil is well agitated or flowing Samples should normally be taken from the return line to the oil compartment upstream of any filter If the oil is sampled on the downstream outlet side of a filter wear debris and particulate contaminants will have been removed by the filter Keep in mind that the oil compartment or sump will act as a sedimentation filter The manner of collection should always involve a gradual uniform flow of oil into a clean bottle Care should always be taken not to take the dregs or the initial spurt of oil when filling from a drain or pressurized line Oil should be sampled either just after a machine has been shutdown or if safe while the machine is still running The when of sampling is most critical in the cases of lubrication systems with relatively low operating viscosities Because the OilView Quick Check tests are relatively inexpensive and under your direct control and interpretation do not hesitate to tailor unconventional sampling techniques to your specific needs Just
23. e in dielectric constant Water Estimate The Water Estimate is derived from the slope of the dielectric over the test interval This estimate reflects the level of insoluble contaminants in the sample such as water coolant and wear particles Ferrous Index The ferrous index is determined at the end of the test It represents the sum of the difference of dielectric constant between the magnet off state with the magnet north and magnet south states OilView Quick Check MJR Technologies LLC 43
24. ev will be incorrect Note Temperature humidity grid cleanliness switching grids grid wear etc can affect calibrations Calibration fluids may also become contaminated as air replaces the fluid Note Calibration history is stored in the currently opened database For continuity the same database could be used for all calibrations O Carano Horory on 4 l A i 5500 son f i sen 5300 j 200_ ql a A s qo 11 saw 10 x 4 x en ru BD JO 100 nu 120 130 Caran Catan R Ca kad 220 Pid 200 z22 x0e4 l ar Ca Os OilView Quick Check MJR Technologies LLC 39 Effects of Calibration Error Dielectric Calculation 320 Se 300 a cl 280 Correct H h 2 260 y 3 E 240 Test a 220 200 4 5000 5200 5400 5600 5800 6000 Frequency Dielectric is calculated by taking the Test frequency and interpolating between the frequencies for the 220 and 300 fluids For this example a frequency of 5600 using the Correct calibration will result in a dielectric calculation of 2 43 The High calibration curve would result in a dielectric of 2 60 and the Low calibration would result in a dielectric of 2 26 If unexpected dielectric results are received the calibration can be verified by testing a reference oil and or re testing the sample OilView Quick Check MJR Technologies
25. filter was last changed e Take samples just after the equipment has been shut down or when it is safe while the equipment is operating This is most important with less viscous oils as large particles and water will settle out of the oil rapidly It is extremely important to be consistent with respect to when as well as where you sample e Carefully label each sample bottle The label should minimally identify the oil type the machine from the which the oil was taken and the date on which the sample was taken If a sample is diluted prior to testing the label should reflect that fact A sample taken from an unknown source has little value Mislabeling of samples may lead to unnecessary maintenance actions e Over time some contaminants will agglomerate and cling to the bottle walls moisture may evaporate and small ferromagnetic particles may be chemically altered to a non magnetic form which will not be detected by ferrographic means Therefore tests should be conducted within a reasonable time frame All OilView Quick Check tests should be conducted with the oil at room temperature and with the sample vigorously shaken just before the test OilView Quick Check MJR Technologies LLC 15 Cleaning the Sensor Grid Clean the sensor by carefully wiping the sensing grid dry using a soft tissue paper and a circular twisting motion The grid has been wiped clean when it no longer stains or wets successive clean pieces of tissue Do not use a
26. following table gives the known minimum contaminant levels that the OilViewO Quick Check Analyzer can detect If these sensitivities are not adequate for your application you may wish to supplement with lab testing or more sophisticated on site technologies such as particle counting Test Results More information can be obtained from oil testing when test results are trended over time Lubricant degradation is rarely linear over time Typically a petroleum based lubricating oil contains additives which protect and enhance the lubricating qualities of the base oil The oil will degrade slowly over time until one or more components of the additive package are exhausted After that point the oil will rapidly degrade The time to additive exhaustion varies with oil type the machine type and changes in the operating environment In well sealed low temperature applications a lubricating oil may last for years In extreme reciprocating engine applications an oil will degrade after only a few hundred hours of use Consequently once you have a knowledge of the normal trend of oil degradation in a specific case abnormal conditions can be detected Dielectric Number This dielectric constant like boiling point melting point viscosity and refractive index is a fundamental property of a material Simply put dielectric constant measures the resistive or nonconductive properties of the oil Contaminants liquids or solids settling onto the surface
27. gies ELC OilView Quick Check MJR Technologies LLC 19 Applications Where To Use the OilView Quick Check Analyzer The OilView Quick Check Analyzer detects degraded lubricating oil or abnormal wear in lubricated machinery However many lubricating oil applications are unique with respect to both oil properties and the machinery in which they are used The following paragraphs discuss appropriate OilView Quick Check Analyzer applications Engine Crankcase Oils The OilView Quick Check Analyzer can be used to test crankcase motor oils used in reciprocating engines It is an excellent tool for monitoring oil condition in diesel gas and gasoline engines It has a special value with respect to diesel engines where soot makes any visual determination of oil quality or debris content difficult The OilView Quick Check Analyzer is sensitive to oxidation a common mode of oil failure in modern engines It is sensitive to soot loading in diesels and will also detect abnormal wear of ferrous parts The OilView Quick Check Analyzer is very sensitive to the presence of either coolant or water in the oil Oils taken from engines fueled with liquid hydrocarbons diesel or gasoline should also be screened for viscosity reduction resulting from fuel dilution Turbine and Pump Oils Oils used in steam turbines and water pumps are prone to contamination with water In these oils the OilView Quick Check Analyzer will detect water concentr
28. ical oil testing session using the OilView Quick Check Analyzer system and assumes the grid has been calibrated OilView Quick Check should display Testing Plug Clean Grid Inspect the sensor If necessary clean according to best practices recommendations and plug into OilView Quick Check Device should display Testing Is Clean Unplug Upon unplugging the grid the display will indicate Testing Test Neat Oil A neat oil sample has not been diluted or otherwise modified The dielectric of the diluent kerosene diesel lamp oil etc will differ from the oil sample thereby interfering with the determination of the sample dielectric Screw the sensor to the bottle Vigorously shake the sample bottle after making sure that the cap is screwed on tightly This must be done to ensure that the contaminants are evenly dispersed in the sample The bottle should be shaken 15 seconds or until no sediment can be seen on the bottom of the bottle after it has been inverted In extreme cases it may be necessary to stir the sediment from the bottom of the bottle using a clean plastic or glass rod before shaking Note This procedure describes shaking the sample bottle and then screwing on the sensor Some users prefer to shake the sample after the sensor has been screwed onto the bottle Either method is acceptable as long as the sample is vigorously shaken just before the test OilView Q
29. isc 40C and Comments OilView Quick Check MJR Technologies LLC 30 Note You may sort the display by any column by clicking the column header This could be a useful technique for finding and or grouping results Subsequent clicks will toggle between ascending and descending order Sort order reverts to the default Date descending next program activation Note Multiple samples may be selected by dragging the mouse Current selection will be reflected with highlights for the Sample and Date fields Delete Sample s This will cause the software to generate a confirmation message Are you sure you want to DELETE the selected Sample s If Yes is selected the data will be removed from the database Recalculate Alarm s Will recalculate alarms for the selected sample s A popup window displays Finished at completion Recalculation may become necessary if alarm limits are changed Export to CSV Will write the selected sample s to a text file with values separated by comas This format can be easily manipulated and imported into Excel or Access Export to CSI Use this to write the selected sample s to the Generic file format for import into CSI software Equip ID should match the desired Lab Unit ID to assure proper data import OilView Quick Check MJR Technologies LLC 31 Reference Window Y Reference Default Eon Terresstic SHP 320 Supplier Brand Nam
30. kets and the sensor is then ready for use If this is not done the first few calibrations taken with the sensor will be offset by the low dielectric constant of the air relative to oil Caution Never expose a new sensor to water or water contaminated oil before it is cured OilView Quick Check MJR Technologies LLC 5 OilView Quick Check Initial Hardware Setup Place the OilView Quick Check Analyzer on a flat horizontal surface To utilize the provided PC software connect the OilView Quick Check Analyzer s Port to the computer s COM1 or COM2 serial communication RS232 port host computer or COM2 OilView Analyzer r ET fuse electromagnet a er holder Han a emanan On Off Power switch connector After connecting the interface cable plug the 110 220 volt power cable into the OilView Quick Check Analyzer unit and into a 110 220 volt outlet and then turn the unit on The analyzer should give a three tone output and display the OilView Quick Check copyright message on its LCD screen Caution The sensing grid should never be exposed directly to water Note Because the OilView Quick Check Analyzer is extremely sensitive to moisture it should be used where humidity and temperature are relatively constant For best results the humidity should be low and the temperature should be nearly constant Note The OilViewO Quick Check Analyzer should be turned on before use allowed to warm up for a few minutes
31. lvents such as hexane or heptane If kerosene does not dissolve a specific type of oil then consider using another solvent However make sure that the solvent has a dielectric value of less than 16 For example most alcohols have a dielectric value greater than 16 If dilution is impractical samples may still be tested however the corresponding reduction in device sensitivity should be noted The Dielectric is not affected but Iron Water estimate and Large Contaminant will not perform as with a diluted sample Note When the OilView Quick Check Analyzer is being used as a screening tool a second undiluted sample should be taken in the event the oil is to be sent to an oil lab Warning Consult your Saftey department be aware of flammability characteristics and skin contact restrictions for solvents and oils OilView Quick Check Analyzer Usage Tips Procedural consistency and proper techniques are the best way to achieve reliable results from your OilView Quick Check analyzer The following list of procedures has been shown over time to provide the most reliable dielectric measurements and to improve the general repeatability of measurements Double Clean the Grid Cross contamination of one test sample affecting the results of a subsequent test can be a significant problem when testing oils of widely differing dielectric values especially when the oils are not soluble with each other For this reason consider testing a batch
32. ly an abnormal Wear condition OilView Quick Check MJR Technologies LLC 36 Customer Window Customer Last Name i First Name City State Zip Phone Smith lohn 447 Oak Street IL exington KY 40513 859 555 1234 kk JohnSmith hotmail com Technologies LLC MJR 4390 Clearwater Way Lexington KY 40515 859 245 3713 mike mirtechnologies com Add Delete Set Clear Customer Sample Customer cea For reporting purposes a customer may be assigned to a sample If there is no need to assign customers this window can easily be closed minimized or moved Customer Add Delete Customers can be added to the list by selecting the Add key You may delete a Customer with the Delete key as long as the Customer is not being used by any of the oil samples Sample Customer Set Clear These buttons only apply to the currently selected sample As samples are selected in the Sample Data window their corresponding Customer will be selected in the Customer window To change the Customer for a Sample select the sample in the Sample Data window select the Customer window and select the desired Customer Press the Set button Pressing the Clear button will clear the Customer Note You may sort the display by any column by clicking the column header This could be a useful technique for finding and or grouping results Subsequent clicks will toggle between ascending and descending order Sort o
33. nearly with both particle size and concentration The index is primarily sensitive to recent severe wear of oil wetted steel and iron parts because the surfaces of such particles are likely to be conductive It is an indicator of the condition of the lubricated system In general higher index values correspond to higher wear rates This index should be near zero Any positive value indicates ferromagnetic debris Higher values indicate increasing concentrations and or particle size It should be noted that many severe wear particles will not be detected by atomic spectrometry the standard laboratory analysis for metals in oil The atomic spectrometers used for oil analysis are not sensitive to particles much larger than 5 to 10 microns in diameter Severe wear typically produces larger particles Consequently even if you are having a spectrometric metals analysis performed by a lab you should also conduct an OilView Quick Check Analyzer test Atomic spectrometry and OilView Quick Check Analyzer testing are complementary rather than redundant A full analytical ferrographic examination of the sample by an oil lab is recommended if this index gives a high positive reading Large Contaminant Indicator There are four text outputs for the qualitative assessment reported as Large Contaminant Indicator No Large Indications indicates that the analyzer did not detect excessively large metal particles or water droplets Large Ferrous indicates
34. ng the field and typing the new values Customer information may also be modified temporarily however permanent changes should be make on the Setup or Customer window amp Q x The Report window may be printed or previewed by selecting the appropriate toolbar buttons The X button is used to close the preview mode and return to the Report window To create a pdf of the report go to this site and download the free PDF995 program http www pdf995 com This will let you create a pdf by printing it prompts you for a file name to create to the pdf995 printer In the Quick Check software select the preview icon on the top of the report window to view the formatted report The print icon will let you print the report the pdf995 will need to be set as your default printer The shape of the TriVector plot is also helpful because it lets you quickly identify areas of concern For example a sample with normal wear and contamination readings but bad lube chemistry would appear as below EB High Fault E Low Falut EJ High Alert met J Low Alert EB Normal Contamination Chemistry A plot may show high wear but otherwise healthy oil good oil contaminated with water or any other combination of problem It is not unusual for an oil to first experience a Chemistry problem as additives are depleted and soluble contaminants build up Left uncorrected the oil problem can develop a Contamination problem and eventual
35. of the sensor grid cause a change in dielectric constant at the oil grid interface When oils are oxidized or the water concentration increases it is reflected in the dielectric number Chemical Index The chemical index is equal to the difference in dielectric between the sample and the reference oil multiplied by 100 This calculation is performed automatically if the PC software is used An increase in this index indicates that the oil is increasingly able to support electrical conduction due to the presence of polar molecules and or ions These conditions typically will lead to increased wear and corrosion The most common causes of an increase in this index include e thermally accelerated oxidation and nitration e soot loading e the formation of acids from combustion blow by in engines and e increased moisture content This index should be trended over time Normally it will be zero If it is non zero the oil is becoming corrosive and frequent testing is in order If the value continues to rise it is probable that the oil additive package is exhausted or a contaminant is entering the system Before condemning the oil be sure to check that the oil was being compared to the proper reference oil If desired retest the reference oil to assure OilView Quick Check has been calibrated properly If after verification a second test gives the same results as the first consider changing the oil or sending a sample to an oil lab OilView
36. ong the factors that may contribute to the chemical index are soluble water oxidation of the oil soot acids and wrong oil Fuel dilution due to its lower dielectric can reduce the Chemical index and result in a negative index value Since contaminants drive the dielectric in the opposite direction of fuel it is best to rely on viscosity measurements to detect the fuel dilution A change in dielectric constant of less than 0 02 is considered good A change of 0 10 1s considered extreme Large Ferrous Particles Large ferrous particles are detected as spikes in the dielectric constant during the north and south magnet states OilView Quick Check MJR Technologies LLC 42 Dielectric Ferrous Index A B A Magnet ON North Large Non Ferrous Particles Magnet Off Parlicies hitting gid o Magnet OFF 2 Large Ferrous o 5 Particles ji ce Magnet On 3 Mag hiting n Froe Water ster dmplels settling on grld temu Water Estimate TAY one Chemical Index Svatification or setting oYInsolahles Water In solutlan Emusions Vater Glycol Phosphate esters Oxidation Non Ferrous Debris Soot Acide Wrong Ol a Reference Oll Begin Test Time End Test Large Non Ferrous Particles Large non ferrous particles are detected as short term spikes in the dielectric constant during the magnet off state Water Droplets Water Droplets are detected as an instantaneous and permanent chang
37. ot being used by any of the oil samples Sample Reference Set Clear These buttons only apply to the currently selected sample As samples are selected in the Sample Data window their corresponding Reference Oil will be selected in the Reference window To change the Reference for a Sample select the sample in the Sample Data window select the Reference window and select the desired reference Press the Set button Pressing the Clear button will clear the Reference oil Either selecting will cause a recalculation of the Alarm levels OilView Quick Check MJR Technologies LLC 32 Default Reference Set Clear The Default Reference will be automatically applied to all future tests If possible it may be convenient to group test samples by Reference oil to reduce the need to change this setting Observe that the current default Reference is displayed in the caption of the Reference window Note You may sort the display by any column by clicking the column header This could be a useful technique for finding and or grouping results Subsequent clicks will toggle between ascending and descending order Sort order reverts to the default next program activation Note You may change the values in any of the Reference window fields by selecting the desired field and typing the new values OilView Quick Check MJR Technologies LLC 33 Alarm Window Y Alarms Default Gear Simple Other Equipment Alarm Limit Se
38. place the need for dissolved gas analysis to detect partial discharge in high voltage transformers Fuel Testing The OilView Quick Check Analyzer can be used to test fuel oils such as 2 diesel for water a common problem that destroys fuel injection pumps For safety reasons the OilView Quick Check Analyzer should never be applied to a highly flammable hydrocarbon liquid such as gasoline Synthetic Oils The OilView Quick Check Analyzer can be used to test most synthetic lubricants Extra care should be taken in cleaning the grid when changing between mineral oils and synthetic lubricants Grease Mechanical wear can be monitored by testing a dissolved sample of the grease OilView Quick Check MJR Technologies LLC 21 OilView Quick Check Analyzer Detection Limits Property Indexes Lubricant Type Minimum Detectable Limits Lube Degradation lOxidation K C LC Most Lubricants lt lt 10 by FTIR K C Soot Ik Cc Heavy duty diesel 0 4 by TGA Lube System Contamination Water K C W LC Hydraulic ko 01 K C W 0 06 LC Droplets o o H Water AE AAA Stern Tube Oil used to Water lubricate the bearing at the 4 2 K C W gt 15 LC Droplets aft end of a marine drive shaft Polyol Alkaline Glycol Water A compressors Perfluorinated Ether Water synthetic lubricant used in lt 0 05 K C hard vacuum pumps Glycol Heavy Duty Diesel lt 0 2 Mechanical Wear Iron Fe W LC All
39. rder reverts to the default next program activation Note You may change the values in any of the Customer window fields by selecting the desired field and typing the new values OilView Quick Check MJR Technologies LLC 37 Status Window Not Plugged In Cal 12 30 2004 A 2 20 B 3 00 Testing Plug Clean Grid The Status window will reflect the various states and conditions of the OilView Quick Check analyzer The text status may be easier to read then the device display Also the Calibration information can easily be verified for correct date and dielectrics This window is not required for successful operation of the system and may be closed minimized or moved if desired OilView Quick Check MJR Technologies LLC 38 Cal History At the completion of calibration a history chart is displayed The chart may also be displayed by selecting Cal History from the main menu A frequency see appendix for explanation and suggested error band for the 220 and 300 fluids is graphed The suggested limit is based on the median value for all previous calibrations A data point near or beyond the suggested limit does not necessary mean that the calibration is incorrect However verification is advisable Note Five calibrations are required before a chart will be displayed Note Incorrect calibration will not interfere with the units ability to detect wear and contamination However the Chemical Idx and Chem S
40. reen displayed is the setup screen OilView Quick Check MJR Technologies LLC 26 Setup Screen Beles OilView Port Calibration Fluid Dielectric i 220 Fluid 220 Comm 1 Save amp Download 200 Fluid 300 T7 Download Calibration when DilView starts Customize Report Company Hame Company Address Address DD City State Zipcode address CC Telephone Telephones CC EMail E Mail TT Logo Bitmap EEE Xal Report Header Trend Repot Report Footer DiviewQC Analyzer CC T enm tenin Bright Dal Ok Cancel OilView Port Select PC communications port Calibration Fluid Dielectric The analyzer is supplied with calibration fluids blended for a dielectric of 2 20 and 3 00 These are the default dielectric values that the stand alone analyzer will use However if it is necessary to use other fluids those dielectric OilView Quick Check MJR Technologies LLC 27 values can be entered and saved by pressing the Save Download button Whenever the software detects the power up on the OilView Quick Check Analyzer the new dielectrics can be downloaded Download Calibration when OilView starts The software will automatically download the most recent calibration data when a power up of the OilView Quick Check Analyzer is sensed Calibration data affects the dielectric results but has little affect on other outputs Note The OilView Quick Check Analyzer dielectric measurement is
41. riencing abnormal wear Remember that the OilView Quick Check Analyzer will only detect gross abnormal wear of babbitt nonferrous bearing surfaces Detection of pending failure of babbitt bearings requires supplemental laboratory testing or testing with a particle counter Hydraulic Oils The OilView Quick Check Analyzer can also be used to screen for water and ferrous debris in nonconductive hydraulic fluids However OilView Quick Check Analyzer testing of fluids used in precise hydraulic systems should always be accompanied by subsequent laser particle counter tests Cleanliness requirements may exceed device sensitivity Compressor Oils Mineral and synthetic oils used in compressors can be tested for moisture contamination oil breakdown and mechanical wear It is normally important to degas the used oil samples taken from refrigerant compressors prior to testing them regardless of what instrumentation is being used Most often it is normal for the used lubricant to contain significant amounts of refrigerant such as ammonia CFC or R134A The ammonia in particular has a significant effect on the OilView Quick Check Analyzer sensor since ammonia has a high dielectric just like water Electrical Insulating Oils This screening test evaluates the oil quality and moisture contamination for electrical insulating oils commonly used in transformers and oil filled circuit breakers OCBs The OilView Quick Check screening test does not re
42. t A Parameter _ Low Alert High Alert Low Fault High Fault Engine Unknown Chemical Idx Compressor Unknown Ferrous Idx Gear Simple Other Vater Pump Unknown v Alarm Sample Alarm Default Alarm Add Delete Set Clear Set Clear Test results are displayed with colors that correspond to the calculated alarm level This facilitates a quick assessment of the sample status Alarm Add Delete Alarms can be added to the list of Alarm Sets by selecting the Add key You may delete an Alarm Set with the Delete key as long as the Alarm Set is not being used by any of the oil samples Sample Alarm Set Clear These buttons only apply to the currently selected sample As samples are selected in the Sample Data window their corresponding Alarm Set will be selected in the Alarm window To change the Alarm for a Sample select the sample in the Sample Data window select the Alarm window and select the desired Alarm Set Press the Set button Pressing the Clear button will clear the Alarm Set Either selecting will cause a recalculation of the Alarm levels Default Alarm Set Clear The Default Alarm will be automatically applied to all future tests Observe that the current default Alarm Set is displayed in the caption of the Alarm window Note You may change the values in any of the Alarm window fields by selecting the desired field and typing the new values OilView Qui
43. t is important to fill the sample bottle to the same level each time e When drawing oil through a drain plug or valve do not collect oil during the initial spurt or rush It may contain metal from the plug threads and it will certainly contain debris that has collected over time around the plug or valve opening Similarly don t take the dregs if the oil is being completely drained However if you are concerned about water sample from the initial rush just remember that the oil sample will not be representative of the bulk of the oil and the data should not be used for trending purposes A second sample should be taken to determine the bulk oil condition e When using a suction pump to draw oil up from a sump through a fill pipe dipstick tube or other orifice do not let the tube contact the bottom of the sump or scrape dirt from the access orifice Conversely if you are concerned about free water as opposed to debris sample near the floor Always change or clean your sampling tube between samples Also remember to keep the sample bottle receptacle on the suction pump clean e As a general practice you would not want to initiate a maintenance action on the basis of an oil sample taken directly from a used oil filter However this is where you will find the highest concentration of solid contaminants and large wear debris particles If the filter is free of metallic debris it is unlikely that you have had extensive abnormal system wear since the
44. til they are depleted Water particles will not settle onto the sensor grid while the additives are able to disperse and suspend the water particles The presence of emulsified water will affect the initial dielectric thereby showing lube degradation through the chemical index The presence of water can be verified with a crackle test More accurate results may be obtained from a commercial lab The water estimate should normally read near zero Any positive increase in this value over time indicates increasing levels of contaminants and a laboratory oil test is recommended The following conditions will cause an increase in the Water Estimate e the presence of insoluble water in the oil Very high values will be seen if corrosive compounds such as salts are present in the water e the presence of conductive metal particles in the oil e the presence of dirt grit or polar hydrocarbons in the oil The Water Estimate for OilView Quick Check has been calibrated for a heavy duty diesel engine oil For other applications the results should be adjusted by multiplying by the following factor Application Multiplier Polyalkalene glycol PAG 1 0 Polyalphaolephin PAO 0 5 Turbine amp Hydraulic 0 1 Industrial 0 5 Automotive 1 0 Stern Tube 2 0 OilView Quick Check MJR Technologies LLC 24 Ferrous Index Fe The ferromagnetic index is sensitive to conductive ferromagnetic particles It increases li
45. uick Check MJR Technologies LLC 11 Plug the sensor into the OilView Quick Check Analyzer Take care to ensure that each of the plugs on the sensor body is fully inserted in the jacks on the face plate of the analyzer we ZA Upon plugging the grid the Analyzer will calculate the dielectric Testing DIEL 2 31 Unplug the sensing grid and shake the bottle This action stirs the debris that settled onto the grid during the test back into the oil Then place the bottle bottom down and allow the oil to drain from the sensing grid back into the bottle for a few seconds After unplugging the grid OilView Quick Check will display Testing Test Diluted OilView Quick Check MJR Technologies LLC 12 Dilute the sample by adding an equal amount of kerosene diesel lamp oil or other diluent Vigorously shake the sample bottle after making sure that the cap or sensor grid is screwed on tightly This must be done to ensure that the contaminants are evenly dispersed in the sample The bottle should be shaken 15 seconds or until no sediment can be seen on the bottom of the bottle OilView Quick Check will start to test the sample once the sensor grid is plugged in The display will indicate Testing Testing XX The XX is the approximate number of seconds that have elapsed since the start of the test At completion final results are displayed along with the previously calculated dielectric
46. ul in establishing the source 18 2 445 0 ulate Alarm s Export to CSV Export to CSI As tests are completed the results are automatically uploaded and stored in the current database Calculations will use the current Default Alarm and Default Reference The Sample defaults to an internal number and may be modified Date will be set to the current date time and cannot be modified Equip ID is a unique identifier for that sample point When a sample with an Equip ID is selected prior samples with the same ID are located to populate the Report screen If results are to be exported for a CSI database the Equip ID should match the CSI Lab Unit ID Unit Usage can be used to report miles hours kilometers etc Oil Usage can record miles hours oil has been in use and Oil Added can record adds Wear Sev Contam Sev and Chem Sev represent the maximum alarm level in that category for the sample The Ferrous Idx and Large Contaminant Ferrous is used to determine the Wear Severity Contamination Severity 1s determined from the Water Estimate Large Contaminant Droplets and Large Contaminant Non Ferrous The Chemistry Severity is calculated with the Chemical Idx and Visc Chg The severity is compatible with the CSI 0 100 scale Note You may modify editable fields such as Sample Equip ID Unit Usage Oil Usage Oil Added V
47. versa Once again it is important to do final cleaning using the next oil to wipe away any residual surface film on the grid surface and to wipe the sensor dry using tissue paper between cleaning steps Sample Temperature The OilView Quick Check Analyzer is designed to work with room temperature oils Dielectric will vary with temperature due to thermal expansion of the oil Observe the following plots for a multi grade motor oil Erroneous conclusions could be reached if the dielectric of a hot oil sample is compared to the room temperature dielectric of the reference oil Dielectric vs Temperature Temperature C 20 30 40 50 60 70 80 90 100 2 55 2 50 2 45 2 40 2 35 Dielectric 2 30 2 25 2 20 2 15 65 85 105 125 145 165 185 205 Temperature F OilView Quick Check MJR Technologies LLC 18 Inserting Test Grid Observe the sensor grid connections for ground A 5V B and the serial communications C The grid microprocessor will lock up about 10 of the time if voltage is first applied to the power connection B and then the Serial connection C or C then B The Quick Check will not respond but should recover if the grid is removed and reinserted To completely ovoid this problem use the combinations B A C A B C C A B or A C B Notice that any combination where the ground A is first connected is successful DIL ANALYZER Ground A a lon o
48. water based cleaner or an abrasive material to clean the grid Do not allow water contaminated oil to stand on the grid after a test Y TL 14 daal Eta N om After the grid is wiped clean apply a few drops of the next oil to be used onto the surface of the grid and wipe it clean and dry This procedure is intended to wet out the surface of the sensor with the next oil completely removing any trace of the previous oil Make this double cleaning a standard practice as it prevents cross contamination of samples and is very important to reliable data collection Using the supplied bottle of calibration fluid open the flip top and add enough fluid to reach the first diameter change in the gasket OilView Quick Check MJR Technologies LLC 16 Dilution Of Samples The OilView Quick Check Analyzer s contamination and ferrous indexes are dependent on magnetic and gravitational forces moving contaminants and debris through the oil onto the sensing grid In order to support the brief test time oils should be diluted or cut with a petroleum solvent such as kerosene lamp oil or diesel fuel before testing This can be done by filling the sample bottle slightly over 1 3 full with oil adding an equal amount of kerosene and leaving the rest empty to allow for easy mixing when shaking the sample Most mineral and synthetic oils can be diluted with K1 kerosene diesel fuel or lamp oil Some users prefer to use other hydrocarbon so
Download Pdf Manuals
Related Search