Injection systems, fuel performance and machine failure: the hidden connection

Innovation

Injection systems, fuel performance and machine failure: the hidden connection

4 November 2019 | By Shell Commercial Fuels, Sponsored | 0 Comments

Construction companies can reduce their operating costs by 10% or more each month by managing fuel usage effectively[1], says Shell Commercial Fuels.

Often, when we’re looking for ways to cut operating costs and downtime, or increase our company’s efficiency and profitability, we think of large-scale changes: the adoption of fleet-wide telematics, the move to next-generation equipment or other major investments. What’s sometimes overlooked, is the big bottom-line impact managers can make by paying more attention to the smallest components in the heart of their vehicles: a good example being the fuel injection system.

A fuel injector is an electronically controlled valve. Supplied with fuel by the vehicle’s fuel pump, the injector pressurises the fuel and sprays it as a fine mist, mixed with air, into the cylinder, which is then heated up by the piston stroke. The high temperature causes the fuel to ignite, powering the engine.

When injectors get clogged or corroded, the whole engine runs at suboptimum efficiency and could even malfunction. According to one study, the presence of corrosion deposits reduced the injection quantity by 26%[2]. This cuts the amount of energy that is transmitted to the wheels and increases fuel consumption.

Today’s fuel injectors in modern engines are more efficient than ever. One recently developed injector claims to offer a 15% improvement in fuel efficiency over older models[3]. But the more efficient injectors are, the more it matters that they be kept in good condition in order to deliver the engine performance they have been designed for.

So how can construction-site and equipment managers make the most of their fuel injectors and engines in order to increase equipment utilisation and overall site efficiency?

The construction site is a harsh environment for fuel injectors

For an engine, a construction site is a tough place to be. One study of road construction sites found 25% more dust and particulates in the air than were present before work began[4]. Equipment such as excavators, trucks and cranes are often in operation for long hours in unforgiving conditions. In contrast with vehicles in other sectors, there’s no regular return to an indoor depot for a strip down and maintenance.

This makes it more important than ever that the operating conditions for construction equipment — including ongoing maintenance, fuel type and lubrication — are suitably optimised to enable reliable performance of injectors and engines. Furthermore, though the age and standard of engine technologies vary globally, the industry has experienced a general level of advancement in the sophistication and intricacy of engine components.

While these systems undoubtedly have a higher performance potential, they are also more susceptible to dirt and contaminants. Consequently, they require a greater standard of protection, not only to ensure optimum efficiency, but also avoid the unplanned (and often high) costs associated with engine failure, injector replacement, and the emergency rental of equipment.

Taking care of your fuel injectors, therefore, is an investment in fleet and business performance, as clean injectors are less likely to clog or fail. This reduces machine failure and unplanned downtime— particularly important on construction sites, where lost time can hit at company level in the form of: disrupted schedules; risk of contractual penalties; and blemishes on corporate reputation.

With productivity targets in mind, by enhancing spray efficiency, a high-functioning and well-maintained injector system increases the power output of the engine. This helps improve the utilisation and output per unit of equipment, in demanding operations where every hour counts. It also helps reduce fuel consumption, which can further cut operating costs, as well as fuel-related CO2 emissions, another increasing focus area for forward-looking companies.

Why the right fuel can make all the difference

No matter the age of your vehicle, when it runs on regular diesel, carbon deposits build up over time. Whereas, fuels with cleaning additives are specially formulated to tackle carbon deposits as well as other contaminants such as particulate matter, corrosion particles, water, and – in the case of biodiesel – microorganisms. The use of fuels containing these cleaning additives can increase the volumetric efficiency of fuel injectors by up to 5%[5].

A good example of the benefits a company can reap by using fuel with high performing additives, as part of an optimised maintenance regime, is the case of Malaysia’s Malbumi Group. One of Malaysia’s leaders in construction, the group switched its fleet of over 300 construction vehicles and 60 stationary generators to Shell FuelSave Diesel with Dynaflex Technology.
 
The results quickly became clear. “We have never seen injector carbon deposits as light as these, and which you can just wipe off,” said Liew Yun Len, the company’s chief mechanic. Historically, the company used to spend tens of thousands of dollars a year — and a great deal of time and effort — cleaning, maintaining and replacing fuel injectors.

Since switching to additivated fuel from Shell, the deposits are so light, they can easily be wiped away, without any need for replacement. “We no longer believe all diesel is the same,“ says Malbumi’s owner, Mr Edward Ang. “Shell FuelSave Diesel with Dynaflex Technology makes a difference for us.”

Advanced additivated fuels are not just designed to prevent build-up of carbon deposits, but also actively clean up such deposits already present in the engine. Furthermore, they may contain components designed to increase the corrosion protection and dehazing properties of the fuel, mitigating against the corrosive or fuel-aging effect of water that can be introduced during fuel storage.

Fuelling your bottom line

Using advanced fuels with active deposit control additives is the foundation on which to build modern, efficient and competitive construction operations.  

Choosing the right fuel can help construction companies safeguard and make the most of their equipment - from mitigating against the harshness of the environment in which it operates, to increasing its efficiency, reliability and productivity.

All these factors can significantly reduce total cost of ownership and help provide a long-standing edge to construction companies both today and in the future. Ultimately, better equipping them to tackle market challenges and remain at the forefront of the industry.

Top tips on fuel injector maintenance

As well as using advanced fuels with active deposit control additives, there are other steps you can take to ensure fuel injectors operate reliably at optimum performance:

  • Ensure that drivers, or those responsible for vehicle maintenance, know when and how injectors should be serviced, as set out by the vehicle manual;
  • Monitor the engine for signs that injectors may be suffering from deposit build-up — loss of power, black smoke etc. — and take instant action;
  • If injectors malfunction or become clogged, seek qualified assistance for their cleaning or replacement;
  • Seek technical advice from fuel experts on proper fuel usage and maintenance practices to help reduce total cost of operations

Images courtesy of Shell Commercial Fuels

References:
1. Edelman Intelligence, “Shell Commercial Fuels Thought Leadership, Construction Sector Global Report”, August 2018

2. M. I. Karamangila and R. A. Taflan. “Experimental investigation of effect of corrosion on injected fuel quantity and spray geometry in the diesel injection nozzles”, Fuel, Volume 112, 2013, p. 600

3. The International Institute of Marine Surveying (IIMS). (2019). New diesel injector set to change fuel systems and reduce emissions. [online] Available at: https://www.iims.org.uk/new-diesel-injector-set-change-fuel-systems-reduce-emissions/ [Accessed 20 Jun. 2019]

4. Font, A., Baker, T., Mudway, I., Purdie, E., Dunster, C. and Fuller, G. (2019). Degradation in urban air quality from construction activity and increased traffic arising from a road widening scheme. [online] Science Direct. Available at: https://www.sciencedirect.com/science/article/pii/S0048969714010900 [Accessed 20 Jun. 2019]

5. ISIS Improving the efficiency of engine fuel delivery – one neutron at a time. [online] Isis.stfc.ac.uk. Available at: https://www.isis.stfc.ac.uk/Pages/improving-efficiency-of-fuel-delivery.aspx [Accessed 20 Jun. 2019]