Preventing Equipment Failures with Real Time Oil Condition Monitoring

Introduction

With the commitment and investment by the Government in renewable energy and the continuing changes to the energy mix actually produced due to tighter controls and legislation, flexible and reliable peak capacity has never played a more critical role in ensuring that the lights quite literally “Do Not Go Out” .

Real Time Oil Monitoring

The life blood of any engine is the hydrocarbon or synthetic based oils which provides the essential lubrication to ensure trouble free operation. As over 80% of all equipment failures are due in some form to lubrication issues and the use of more diverse fuel types such as Methane is further putting pressure on all operators to regularly monitor and maintain this fluid to ensure efficient running and reduce the significant risk of engine failure. That is why the measurement and monitoring of the Quality of the oil for ongoing performance and reliability is paramount.

It is essential that both suppliers and operators of industrial equipment which relies on oil for lubrication and/or operation, ensure that the oil is correctly specified and maintained in the optimal condition for reliable and cost effective operation. Commercial expectations are also placing greater pressure on OEM’s to supply extended warranties whilst operators are constantly looking for effective cost savings

Traditional offline oil sampling techniques are widely used within industry for the purpose of oil monitoring, there is the risk that the condition of the machine and/or lubricant could become seriously contaminated or otherwise affected at a point just after or at least between sampling times. To reduce this problem a risk assessment program is usually carried out to establish the ideal frequency of monitoring any given equipment. However, this ideal frequency of monitoring could prove difficult to justify both financially and practically in case where safety of sampling is an issue or the equipment is in remote locations, such as isolated pumping stations, a wind turbine etc.

To overcome this problem and reduce the risk further it follows that an accurate Real Time Oil monitoring solution would deliver significant advantages in such cases. Historically the challenge has been that the available technology has been proven to be unreliable and intensive to the key changes in the oil condition and has therefore failed to deliver a commercial base on which to deploy such technology. However with the advent of the patented Tan Delta Oil Quality Sensor , a revolutionary broad spectrum sensor which accurately and reliably monitors all of the key factors within the oil in Real Time, the ability to realise a significant return on investment has now become a reality.

The Tan Delta Oil Quality Sensor is based on a variant of the dielectric properties of the oil, the sensor uses patented technology based on dielectric loss factor (Tan Delta), which is far more sensitive indicator of oil condition than Permittivity alone (often known as dielectric constant). For most oils, the loss factor will vary from perhaps 0.005 (fresh oil) to 0.1 when contaminated, a dynamic range of 20:1. This is compared with just 0.8:1 for dielectric constant (which changes typically from 2.3 to 2.9), and therefore it is evident that Tan Delta is many times more sensitive than traditionally understood and used dielectric constant.

Figure 1 shows the data produced in the laboratory from oil samples taken from a Gas Engine running on Methane fitted with the Tan Delta Oil Quality Sensor. Clearly there are direct relationships with the oil sensor readings and the typically measured oil condition-monitoring laboratory data.

Table 2 shows the above results in detail. The analyses show a fall in TBN, a rise in TAN and a rise in oxidation resulting in the laboratory recommending a caution value where appropriate. The data shown is Table 2 confirms that the oil sensor reliably tracked the oil Condition

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Sensor Technology

The Tan Delta Oil Quality Sensor uses patented technology to accurately monitor the various changes which take place as oil ages and degrades. Every single oil which is available on the market today has a unique chemical makeup, this is as a result of the different base oil and the individual additive package which has been utilized. The Tan Delta Oil Quality Sensor can easily be configured for the specific oil which is being used, the sensor knows what this oil looks like when it is clean and therefore accurately report any changes which take place.

The sensor works by introducing a very high frequency AC voltage into the fluid to precisely measure the oil’s ability to store energy (Capacitance) and the oil’s ability to conduct current (Conductance).

As an oil ages and/or get contaminated the amount of polar molecules with the oil increase dramatically and by combining the measurement factors (patent method) we can assess the amount of change (damage) which has occurred.

To see how we can assist you in saving money, please call Lourens Janse Van Rensburg on +27 (0) 79 512 8027 or alternatively via email, lourens-cisindustrial@outloo.com. Or visit our website:https://cisindustrialservices.com

Plant Uptime • Plant Safety • Asset Reliability

 

Preventing Equipment Failures with Real Time Oil Condition Monitoring

Introduction

With the commitment and investment by the Government in renewable energy and the continuing changes to the energy mix actually produced due to tighter controls and legislation, flexible and reliable peak capacity has never played a more critical role in ensuring that the lights quite literally “Do Not Go Out” .

Real Time Oil Monitoring

The life blood of any engine is the hydrocarbon or synthetic based oils which provides the essential lubrication to ensure trouble free operation. As over 80% of all equipment failures are due in some form to lubrication issues and the use of more diverse fuel types such as Methane is further putting pressure on all operators to regularly monitor and maintain this fluid to ensure efficient running and reduce the significant risk of engine failure. That is why the measurement and monitoring of the Quality of the oil for ongoing performance and reliability is paramount.

It is essential that both suppliers and operators of industrial equipment which relies on oil for lubrication and/or operation, ensure that the oil is correctly specified and maintained in the optimal condition for reliable and cost effective operation. Commercial expectations are also placing greater pressure on OEM’s to supply extended warranties whilst operators are constantly looking for effective cost savings

Traditional offline oil sampling techniques are widely used within industry for the purpose of oil monitoring, there is the risk that the condition of the machine and/or lubricant could become seriously contaminated or otherwise affected at a point just after or at least between sampling times. To reduce this problem a risk assessment program is usually carried out to establish the ideal frequency of monitoring any given equipment. However, this ideal frequency of monitoring could prove difficult to justify both financially and practically in case where safety of sampling is an issue or the equipment is in remote locations, such as isolated pumping stations, a wind turbine etc.

To overcome this problem and reduce the risk further it follows that an accurate Real Time Oil monitoring solution would deliver significant advantages in such cases. Historically the challenge has been that the available technology has been proven to be unreliable and intensive to the key changes in the oil condition and has therefore failed to deliver a commercial base on which to deploy such technology. However with the advent of the patented Tan Delta Oil Quality Sensor , a revolutionary broad spectrum sensor which accurately and reliably monitors all of the key factors within the oil in Real Time, the ability to realise a significant return on investment has now become a reality.

The Tan Delta Oil Quality Sensor is based on a variant of the dielectric properties of the oil, the sensor uses patented technology based on dielectric loss factor (Tan Delta), which is far more sensitive indicator of oil condition than Permittivity alone (often known as dielectric constant). For most oils, the loss factor will vary from perhaps 0.005 (fresh oil) to 0.1 when contaminated, a dynamic range of 20:1. This is compared with just 0.8:1 for dielectric constant (which changes typically from 2.3 to 2.9), and therefore it is evident that Tan Delta is many times more sensitive than traditionally understood and used dielectric constant.

Figure 1 shows the data produced in the laboratory from oil samples taken from a Gas Engine running on Methane fitted with the Tan Delta Oil Quality Sensor. Clearly there are direct relationships with the oil sensor readings and the typically measured oil condition-monitoring laboratory data.

Table 2 shows the above results in detail. The analyses show a fall in TBN, a rise in TAN and a rise in oxidation resulting in the laboratory recommending a caution value where appropriate. The data shown is Table 2 confirms that the oil sensor reliably tracked the oil Condition

undefined

Sensor Technology

The Tan Delta Oil Quality Sensor uses patented technology to accurately monitor the various changes which take place as oil ages and degrades. Every single oil which is available on the market today has a unique chemical makeup, this is as a result of the different base oil and the individual additive package which has been utilized. The Tan Delta Oil Quality Sensor can easily be configured for the specific oil which is being used, the sensor knows what this oil looks like when it is clean and therefore accurately report any changes which take place.

The sensor works by introducing a very high frequency AC voltage into the fluid to precisely measure the oil’s ability to store energy (Capacitance) and the oil’s ability to conduct current (Conductance).

As an oil ages and/or get contaminated the amount of polar molecules with the oil increase dramatically and by combining the measurement factors (patent method) we can assess the amount of change (damage) which has occurred.

To see how we can assist you in saving money, please call Lourens Janse Van Rensburg on +27 (0) 79 512 8027 or alternatively via email, lourens-cisindustrial@outloo.com. Or visit our website:https://cisindustrialservices.com

Plant Uptime • Plant Safety • Asset Reliability

 

Accurate Real Time Monitoring

Tan Delta Oil Quality Sensor (OQSx)

The Oil Quality Sensor (OQSx) is your ideal solution for accurate real time oil condition monitoring. Quickly and easily installed, the OQSx detects all wear and contamination elements to an exceptionally high sensitivity level and provides an accurate statement of your oil condition second by second – in any oil type and in any application.

Accurate

The OQSx accurately reports the precise condition of any oil in real time and is certified to a sensitivity of 15ppm.

ATEX Certified

The OQSx Ex II is fully certified, ATEX approval to BS EN 60079-0: 2012 and BS EN 60079-11:2013 x ic IIA T3 Gc.

Applications

Heavy Mobile Mining Equipment; Continuous Miners, Dump Trucks, Shovels, Drills. Transformers, Gearbox, Compressors, Engines, Hydraulics.

CIS Industrial Services (Pty) Ltd – Plant Uptime, Plant Safety, Asset Reliability.

For more information, please contact Lourens Janse Van Rensburg via mobile +27 (0) 79 512 8027 or alternatively via email: Lourens-cisindustrial@outlook.com.

Data Trending… Optimising Your Maintenance Strategy

Simply gathering information from sensors and systems is not enough to yield the benefits of predictive maintenance.

The ability to collect and then analyse data can be crucial to predicting impending failure.

By investing in an Oil Quality Sensors to influence these maintenance practices, you can  have the benefit of:

  1. Reduce overall maintenance cost by 30%
  2. Reduce sampling cost by up to 80%
  3. Reduce oil purchases and disposal cost by 20%
  4. Increase equipment availability by 5%
  5. and, rule out human induced contamination.

To see how we can assist you in saving money, please call Lourens Janse Van Rensburg on +27 (0) 79 512 8027 or alternatively via email, lourens-cisindustrial@outloo.com. Or visit our website:https://cisindustrialservices.com

Need to monitor your rotating machinery?

The tower fan

Accelerometers – Accelerometer sensors accurately measure vibration, shock, acceleration, motion for monitoring, control and testing applications. Accelerometers in Industry are primarily used to monitor the condition of rolling element bearings or ball bearings on rotating machinery such as fans, pumps, gears, compressors, turbines, paper machines, cooling tower fans and many other types of machinery. Accelerometers typically provide a dynamic signal output for use by condition monitoring systems including monitors, transmitters, analyzers and portable data collectors. Accelerometers are crystal based and convert mechanical motion to an electrical signal in the plant where they are mounted using the piezoelectric principal. Care must be taken with installation to insure proper operation to specifications. CIS Industrial Services offers General Purpose, Low Frequency, High Frequency and High Temperature Accelerometers in many different configurations. All Accelerometers are field proven. Accelerometers are also available in explosion proof (XP/IS) versions for hazardous area installations.