We use cookies to help personalise your web experience and improve our websites. To find out more about what cookies are, how we use them and how to delete them, see our Cookie Statement.  
 
By continuing to use this site, you are consenting to the use of cookies.
Close
20
Fueling commercial vehicles of the future

Fueling commercial vehicles of the future

Commercial vehicle operators are under pressure to protect their bottom line while also ensuring they comply with emission regulations. As a result, many are assessing the potential benefits of a switch from traditional diesel to alternate fuel options.

Alternative fuels types

Alternative fuels are expected to be a growing part of the commercial vehicle energy mix. The leading contenders are biofuels, Liquefied Natural Gas (LNG), Compressed Natural Gas (CNG) and electricity. These alternative fuels can be renewable depending on the source of feedstock or energy used.

Total cost of ownership

Before switching to alternative fuels, operators need to consider factors such as:

  • Vehicle cost
  • Fuel availability
  • Total distance
  • Typical routes
  • Average mileage

Undertaking a Total Cost of Ownership (TCO) analysis will also help to determine the best fuel and vehicle mix for a fleet.

The future of diesel

Trials of alternative fuels are widely reported, but diesel will remain a significant part of the fuels mix for large commercial vehicles.

Engine manufacturers continue to develop diesel-fuelled vehicles that offer very low PM and NOx emissions, while leading oil companies are investing in research and development to improve diesel performance. For example, ExxonMobil has developed Esso Diesel Efficient™ fuel, which is designed to clean up deposits on fuel injectors, helping to improve engine performance.

Trials at Millbrook, one of the most comprehensive independent vehicle testing facilities in the world, found that Esso Diesel Efficient™ fuel helped to reduce emissions2 by 10% for NOx, 22% for PM and 2.8% for CO2 while also improving fuel consumption on average by 2.8%.

A mixed fuels future

The infrastructure to supply alternative fuels is still in its infancy so diesel will remain the dominant fuel choice in the medium term. However, emission regulations are getting tighter so it’s important for commercial vehicle operators to choose reputable fuel suppliers who they can work with to develop the optimum fuels solution for their business.

Want to learn more about this subject?

Alternatives to traditional fossil fuels Glossary

Renewable energy is energy that is generated from renewable non-fossil sources. Examples include sunlight, geothermal heat, wind, tides, hydropower, and sustainable forms of biomass.
Biomass is organic matter derived from living or recently living organisms, such as wood, waste, and animal- or vegetable-based fuels. Biomass must typically meet certain sustainability criteria defined by legislation in order to be considered as a source for renewable energy.
Biodiesel is fuel comprised of mono-alkyl esters of long chain fatty acids derived from vegetable oils or animal fats. They are typically made from renewable organic raw materials such as soybean or rapeseed oils, animal fats, waste vegetable oils or microalgae oils. An example of biodiesel is FAME.
FAME is an abbreviation for fatty acid methyl esters, a type of biodiesel which is made by esterifying vegetable oils and fats (ie biomass) with methanol. FAME is typically blended with traditional diesel, up to limits imposed by legislation (e.g. Fuels Quality Directive), fuel specifications, and/or recommended by vehicle manufacturers.
A biofuel is a fuel or a component of fuel derived from biomass. Examples are bio-ethanol, biodiesel, hydro-treated vegetable oil (HVO), and biogas. Biofuels may be blended with conventional petroleum-based fuels (for example, “B7” diesel is a blend containing up to 7% biodiesel or FAME).
HVO is an abbreviation for hydro-treated vegetable oil which is made by hydro-treating vegetable and animal oils and fats. HVO may also be referred to as renewable diesel and may be blended with traditional diesel. Unlike FAME, HVO does not contain oxygen and can be used as a standalone fuel in diesel vehicles if approved by the vehicle manufacturer1.
Natural gas is a complex gaseous mixture of hydrocarbons, primarily methane, but generally includes ethane, propane and higher hydrocarbons, and some non-combustible gases such as nitrogen and carbon dioxide.
LNG is natural gas that has been liquefied for storage or transportation purposes. It must be stored in cryogenic (low temperature) tanks below -162°C so the natural gas is maintained as a liquid. LNG can be made from fossil or biomass sources (biomethane).
CNG is natural gas which is compressed under pressure and stored at ambient temperature. The gas is compressed to ~1% of the volume which would be present at atmospheric pressure. CNG can be made from fossil or biomass sources (biomethane). CNG can be compressed from the standard gas supply network or converted from LNG (liquefied natural gas).

1Vehicle manufacturer fuel requirements should be checked when considering the use of 100% HVO.

2 Independent tests performed at Millbrook Proving Ground Ltd., UK:

  • Compared the performance in heavy-duty vehicles of Esso™ unadditised diesel with Esso Diesel Efficient™ fuel
  • Used third-party customer trucks (Euro III and Euro V specifications)
  • Covered approximately 110,000 miles/177,000 km
  • Five months of normal daily on-road operations (motorway, rural, and urban environments)
  • Took trucks out of service periodically for lab testing
  • Test results range of 2.1% to 3.4% lower fuel consumption

Millbrook has expertise in automotive, test, and propulsion technologies and remain pioneers in low carbon development. (ISO Certification - ISO 17025, ISO 9001 and ISO 14001.)

Esso Diesel Efficient™ fuel claims are based on internal and third-party vehicle engine testing, laboratory testing, and/or industry or other scientific literature. Basis for comparison for all claims is versus Esso™ unadditised diesel. Vehicle type, engine type, driving behaviour, and other factors also impact fuel and vehicle performance, emissions, and fuel economy. Esso Diesel Efficient™ fuel may be used in all heavy-duty and light-duty vehicles, but results may vary. Fuel economy testing was performed in the UK using on-road trucks.

Contact information

Ermyn House

Ermyn Way, Leatherhead, Surrey,

KT22 8UX