Microfine filtration boosts fuel quality, reduces equipment failure
The path to contamination-free fuels relies on a combined effort from refiners to transporters, storage depots, handlers, and end users all playing a role in minimising contamination. Prior to use, fuels can be polished with multi-pass microfine filtration systems such as those exclusively manufactured by Johannesburg-based ISO-Reliability Partners.
Its microfine filtration systems include a stainless steel desiccant air breather that provides moisture absorption, as well as radial and depth filtration, with around 6 000 times the filtration media when compared to market competitors.
The breather is filled with thousands of desiccant silica gel beads designed to absorb moisture from the air and tank headspace. These change colour when filters need to be serviced. The breathers are fitted on diesel and oil bulk holding tanks, gearboxes, and lube and hydraulic systems to capture large volumes of moisture and particulate contamination at low cost.
“This makes the technology not only feasible, but also highly recommended in comparison to common options on the market,” says Craig FitzGerald from ISO-Reliability Partners. Its microfine filtration solutions and wear particulate analysis offerings were the result of FitzGerald identifying fluid contamination as the initial driver behind the vast majority of equipment failures.
FitzGerald’s career and knowledge around fluid cleanliness spans 25 years, leading to the development of highly effective methods of exclusion and removal of all forms of hydrocarbon contaminants plaguing today’s high power, high precision industrial equipment.
After studying fuel and oil samples and the subsequent impact on equipment performance worldwide, FitzGerald discovered that ISO cleanliness of fuels and oils not only played a considerable role in equipment uptime and reliability, but that standards differed around the world.
According to the South African Bureau of Standards SANS 342:2016, the maximum water content allowed in automotive diesel fuel is 350 mg/kg, with total contamination of particulate matter being 24 mg/kg. The US government has a stricter specification of 10 mg/l (about 12 ppm) for particulate matter. However, neither specification addresses the critical issue of particle size.
While most fuel filters recommended by engine manufacturers have a nominal pore size of 10 µ, studies reveal that the critical particle size for initiating significant abrasive wear in rotary injection fuel pumps and in high-pressure fuel injection systems ranges between one to seven microns.
However, as designs to reduce emissions result in higher rail and injector pressures, the tighter clearances have less tolerance for solids, moisture, and impurities in the fuel. As a result, some engine manufacturers now specify filters with pore size as low as two microns. “The problem is that moisture and dust particles that can pass through a two-micron filter can easily damage the injection parts of a diesel engine. The present standard is therefore not strict enough,” highlights FitzGerald.
SANS 342:2016 has made strides towards reduced engine failures with the inclusion of ISO 12156-1 for fuel lubricity, an essential assessment. “It must be noted that testing is done at the refining stage, yet contaminants continue to enter well after the fuel is given the greenlight for quality,” notes FitzGerald.
Traditionally, removing contaminants is an expensive and arduous task. It cannot be fixed by filtering the fuel through in-line filters only. After refining, fuel passes through numerous tankers, trucks, and storage vessels before it reaches the end user. Thus, there are many potential sources of unwanted contamination. Older fuel tanks, particularly those made from black iron, are highly susceptible to internal rust and corrosion. Thus, previously clean fuel could become contaminated in a tank with internal rust build-up. During transportation, constant vibration and sloshing could detach particulates.
“Air breathers throughout industry are insufficient,” warns FitzGerald. High volumes of dust and water moisture enter each time fuel is transferred, further exacerbating the problem. Water moisture in diesel fuel is one of the most troubling types of contaminants, and also one of the toughest to combat in large bulk fuel tanks.
Since fuel is purchased, transferred, stored, and utilised out-of-sight, contamination and water build-up is difficult to detect, unless it is regularly and properly tested for. Water can enter the fuel in a number of different ways. Diesel fuel is hygroscopic, meaning it absorbs moisture from the air. This is an issue for oil and fuel holding tanks not fitted with fine particulate and desiccant filtration.
ISO-Reliability Partners is an own emblem manufacturer (OEM) of class-leading microfine oil filtration solutions, vacuum dehydration systems, automated water removal for compressed air, and high efficiency industrial air scrubbing. Its expertise combines the sciences of lubrication, filtration, and tribology.
It has the capability to analyse in-operation oil samples and implement proactive measures to counter machine wear as part of predictive maintenance. The company’s reputation and success span 25 years, with it owning and managing the iconic Filter Focus brand, and FitzGerald having incorporated all his intellectual property into the new company. “We offer unique and dramatic cost-reduction solutions for our customers,” he concludes.