A Connected World: Fluid Analysis is No Exception

We live in a connected world. Our daily lives involve hundreds of interactions with data and technology so why should your fluid analysis program be any different? How you submit samples, receive results, manage test data and take action on maintenance recommendations will determine your program’s ROI. In turn, this affects the uptime and Total Cost of Ownership (TCO) of the equipment you operate.

We are all going through a technological revolution, so it is more important than ever to understand how our devices and The Industrial Internet of Things (IIoT) can be integral to your fluid analysis program.

One System: Smarter Actions

From a maintenance management perspective, viewing oil analysis results from an individual machine on the same screen as its vibration readings and data from sensors allows the engineer to react quicker to the recommendations, assess the bigger picture and understand that one set of results confirms another. This creates huge efficiencies and results in smarter, more accurate maintenance actions being performed. In turn, it leads to improved uptime, an increase in ROI returns and a reduction in the Total Cost of Ownership of the equipment being monitored.

A Solution

POLARIS Laboratories® has joined the technology revolution and is helping you get there, too. With our integration feature, DataConnect, internal data systems communicate and transfer your sample data and results back and forth on an hourly basis from HORIZON® so your own CMMS or SAP system is accurate, up-to-date and in the correct format at all times.

Part of a Routine

Most CMMS or maintenance management programs are utilized at point of application during daily plant walk-rounds, in sample taking or planned maintenance actions. This means there is a growing requirement to integrate the sample taking procedure into your internally-operated system to reduce the number of applications and processes used.

Your system working in conjunction with the laboratory’s system will enable you to use your own software to submit samples and ensure that the information is as accurate as possible (as with our mobile app) and performing all the duties in a ‘single screen’. Knowing when a sample should be taken and receiving the notification is vital for improving compliance and optimizing your fluid analysis program. In addition, having all of this information in a single program not only adds value to the program, but creates huge efficiencies in daily maintenance and reliability tasks.

 

 

Proven Impact. Proven Uptime. Proven Savings.
Let us prove it to you. 

Published April 29, 2019

5 Reasons You Need to be Testing Your Coolant

40 to 50 percent of preventable premature engine failures can be traced back to problems in the cooling system

The majority of those failures are due to issues in the cooling system that can be identified early with coolant sampling

The Importance of Adding Coolant Testing into Your Program

Have you lost an engine and wish you could have caught the problem before the point of no return? Or better yet, what if you could determine the root cause all together? Adding coolant testing to your existing program can do exactly that.

Only monitoring the lubricant provides a limited view of a much bigger picture.

Research has found that when physicians take a whole body approach, their patients heal faster, have a higher success rate, and have a more favorable response to a prescribed medication or therapy. In thinking about our equipment, we should take a similar approach. If you are not testing your coolant, you are ignoring half the patient and half the problems.

As engine metallurgy and design have become more advanced and the demand for increased fuel efficiency and emission’s, engine operating temperatures have increased more than 40 degrees Fahrenheit in the last 50 years. This puts a greater emphasis on maintaining the thermal loads placed on the modern cooling systems.

Some common issues that can be detected and addressed with coolant testing include:

1. Identifying incorrect glycol concentration

There are many causes for the glycol concentration to not be at the proper ratio. Some of the common causes include system top offs with water or coolant concentrate, loss of water due to boil off from a defective pressure cap, and/or flush water left in the system. When glycol concentration is not at the proper ratio per OEM specification problems occur including coolant and engine block freezing, seal damage, and/or overheating. This reduces the life of the lubricant and may cause premature engine failure.

2. Are your pH levels out of specification?

Monitoring the coolant pH levels will indicate early concerns within the cooling system. An engine coolant’s acceptable pH level varies depending upon the coolant formulation. Issues that may arise when pH is out of specification include corrosion of iron components and other metals which often results in pitting of engine liners. Also, corrosives will attack the EGR coolers, or any other cooler in the system. The problem is exacerbated when corrosion protection inhibitors drop out of solution which causes plugging and inadequate coolant flow. When coolant cannot properly circulate, heat cannot be removed efficiently from the engine and the lubricant degrades more quickly resulting in shorter drain intervals.

3. Inadequate corrosion protection inhibitors

The purpose of corrosion protection inhibitors are to maintain pH, prevent foaming and prevent internal metal surfaces from corroding. When corrosion exists in the cooling system heat will not be efficiently removed. Additionally, a corrosive environment will attack most solder joints causing holes and leaks in the system. These leaks will in themselves cause secondary issues including internal coolant boiling, contamination, and adverse chemical reactions.

4. Find sources of contamination

There are many possible sources of contamination which cause damage to the cooling system and ultimately the engine. For our purposes, we will focus on the most preventable source: water, which is used to dilute coolant concentrate or top-off the system. Using water that does not meet ASTM and/or OEM manufacturer’s specifications will increase scale formation and corrosion potential within the cooling system. Even ‘clean’ tap water may contain magnesium, calcium, sulfate or chloride in levels that are harmful for the equipment. Scale forms where the greatest amount of heat transfer is needed and acts as an insulator resulting in overheating and engine damage.

If you want to learn more about adding water to your cooling system, check out our video here.

5. Detect early failure

Coolant testing can indicate combustion gas leaks, air leaks, glycol degradation, electrical issues and contaminants. Each issue will cause chemical reactions within the cooling system, resulting in failure. With early detection, scheduled down time for repairs can be made. Correcting the issue will help prevent complete engine failure or unexpected downtime.

Corrosion occurs at a slower rate than engine wear. This is why engine failures occur more frequently but are often traced back to issues within the cooling system. The cooling system must be able to circulate coolant, remove heat from the system and dissipate the heat in order to function correctly. When the cooling system is not able to circulate or remove the heat effectively, we will see reduced life of the lubricant, increased engine wear, and/or issues with system components, which often result in premature engine failure.

Coolant Test Descriptions

See all possible coolant testing, how the testing is performed and what it can tell you about your system:

Basic and Advanced Testing

Test all fluids in your equipment!

Testing all fluids within the equipment by utilizing an effective fluid analysis program will help reduce unexpected down times and/or equipment replacements – resulting in an increase return of investment (ROI).

Proven Impact. Proven Uptime. Proven Savings.
Let us prove it to you. 

Published April 16, 2019

Improving Reliability with Oil Analysis

One of the greatest benefits of effective reliability practices is the impact on the total cost of ownership for equipment. There are many obvious savings, such as increased production, uptime and lower maintenance costs. Unfortunately, once a piece of equipment is out of the design phase, there is a fixed upper limit to the level of reliability that can be achieved without modifying components of the equipment. That doesn’t mean that once you’ve made the investment, you are powerless to do anything to improve reliability. Oil analysis can give you information that may be used to influence OEM designs and your future purchases.

Oil analysis can provide insights to influence decisions

A customer participating in oil analysis has a mixed fleet of on-highway trucks and used the HORIZON® Problem Summary Report to compare their different engine manufacturers. They found that an OEM was showing a high percentage of samples with coolant contamination issues. They reviewed their various models of engines from the OEM and found that one specific model was the biggest culprit, with 15 percent of all samples showing at least the beginning signs of coolant ingression.

The customer provided the engine OEM with the findings from the maintenance observations recorded in their CMMS as well as the data from the problem summary report. The OEM reviewed the data, realized that they had an issue and began investigating the EGR cooler design. The OEM redesigned the EGR cooler which reduced coolant ingression issues to less than 5 percent.

In this example, in addition to oil analysis reducing downtime for the customer, reliability was improved for all users of that engine. Warranty costs for the OEM were reduced and the communication with the customer and subsequent research will also improve future engine design.

Would you rather be in a cycle of warranty claims and repairs or do you change your mindset regarding reliability?

Accepting failures and predictive maintenance as a part of normal operation and having maintenance personnel focused on repairs rather than upkeep will keep you from having a truly reliable operation.

Talk to our experts at POLARIS Laboratories® today to find out how we can help you harness the full potential of your data.

Proven Impact. Proven Uptime. Proven Savings.
Let us prove it to you. 

Published April 2, 2019