You don’t have to remove what you don’t allow to enter. Indeed, it’s hard to challenge the logic and value of controlling water ingression, but because moisture is everywhere, achieving bone-dry oil through exclusion alone may not be practical or even necessary.

Lubricating oils have different degrees of hygroscopicity (water-loving tendencies), making the control of all dissolved water an almost futile exercise. However, for many applications, it’s the free and emulsified water that is the most destructive and, hence, the central target for control and inspection.

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Countless times, I’ve devoted this column to stressing the virtues of contamination control. With each passing year, we seem to receive more and more user feedback detailing and validating the business case for clean, dry and cool oil. Of course it’s one thing to preach its value, but it’s quite something else to actually achieve and sustain near-contaminant-free conditions. Therefore, it is this subject that I’ll tackle with the current and a few future columns, beginning with exclusion and removal of water.

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Water in a hydraulic system constitutes a serious form of oil contamination. However, water contamination is rarely recognized as such, hardly understood, and, until recently, considered difficult to combat. The damage caused by water is usually attributed to other causes. Water often interacts with other types of contamination. It causes both degradation of the hydraulic oil and damage to the hydraulic components, which reinforce each other. In the past, the filtration of hydraulic oil was solely aimed at removing solid particles. The hydraulic industry has therefore made great progress over the last twenty years in applying and maintaining well-designed filtration of solid particles from hydraulic oil. However, the recent introduction of water-removing filters seems destined to shift the focus in the management of hydraulic oil contamination.

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Here is the latest component for hydraulic system filtration and contamination control Water is a very serious contaminant in oil hydraulic systems. Yet, water contamination is rarely identified, poorly understood, and, until recently, considered very difficult to remove. In most cases, the damage done by water is blamed on other factors. Water often works together with other contaminants to produce a combined synergistic degradation of fluid and components.

In the past, hydraulic filtration processes were designed to separate solid contaminants from the hydraulic fluid and, over the last 20 years, the hydraulics industry has made great progress in implementing and maintaining well-conceived solid-contaminant filtration on hydraulic equipment. However, the recent introduction of water-removing filters appears destined to change the focus of fluid power contamination control.

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Numerous methods have been developed to selectively remove water and other volatile contaminants from hydraulic and lubricating fluids. These methods include absorbent filter media and regenerable adsorbent packings and the like. In many cases, it is not economical or practical to use disposable media, and as a result, continuous scrubbing processes have been developed. These processes are available in a variety of designs and are universally referred to as oil reclamation systems.

The most common scrubbers are derivatives of vacuum distillation processes used in refineries. The process involves expanding oil to produce high surface area to facilitate the vaporous extraction of water and certain other contaminants.

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Water in a hydraulic system constitutes a very serious form of oil contamination. Technically, water contamination is rarely recognized as such, poorly understood, and, until recently, considered difficult to combat. The damage caused by water is usually attributed to other causes. Water often interacts with other types of contamination. It causes both degradation of the hydraulic oil and damage to the hydraulic components, which reinforce each other. In the past, the filtration of hydraulic oil was solely aimed at removing solid particles. The hydraulic industry has therefore made great progress over the last twenty years in the application and maintenance of well-designed filtration systems for solid particles in hydraulic oil. However, the recent introduction of water-removing filters seems destined to shift the focus in the management of hydraulic oil contamination.

The post Filters can remove the water from hydraulic oil appeared first on Tesibis.

Water in a hydraulic system constitutes a very serious contaminant of the oil. Nevertheless, water contamination itself is rarely recognized, poorly understood, and until recently, considered difficult to combat. Sometimes, the damage caused by water is attributed to other types of contamination. Water often interacts with other contaminants, causing both degradation of the hydraulic oil and damage to the hydraulic components, with these effects reinforcing each other. Until now, hydraulic oil filtration has primarily focused on removing solid particles. The hydraulics industry has made significant progress in the application and maintenance of well-designed solid particle filtration systems over the past twenty years. However, the recent introduction of water-separating filters appears poised to shift the focus of oil contamination control.

The post Filters kunnen het water uit hydraulische olie verwijderen (Filters can remove the water from hydraulic oil) appeared first on Tesibis.