uncategorized · 1/15/2019

Think Alternative Fuels Lower Fleet Costs? Look Closer at Maintenance

Neste Truck Open Nature

Written by Matt Leuck

In today’s thriving economy, it’s a good year to be a fleet manager. Yet at the same time, fleet managers at transportation companies, as well as at governments providing services like fire protection or mass transit, still face concerns around profitability and maintenance.

Diesel prices hover around $3.35 a gallon—nearly 54 cents a gallon higher than this time last year.[1] These rising prices, combined with the growing pressure to invest in environmentally-friendly alternative fuels and technologies, mean that fleet managers need to find new ways to better manage, if not reduce, fuel spend while still operating efficiently.

While the headlines make exciting promises about what’s around the corner—“Electrically powered long-haul trucks!” “Delivery vans and municipal vehicles burning clean natural gas!”—the reality may be years away:

So Many Choices, but What Really Reduces Fuel Spend?

Cutting fuel costs is consistently top of mind for fleet managers at transportation companies and government services, including fire departments, transit authorities, airports, highway maintenance and sanitation. 

In California, the primary market in the United States for alternative fuels for Class 8 trucks and other heavy-duty vehicles, fuel prices are already higher than other states due to taxes and regulations.[3] And forecasts predict prices to reach or exceed $4 per gallon in 2019;[4]California operators should prepare for diesel prices to reach between $6 and $7 per gallon during the next decade.[5]

In addition, California has a new goal of carbon neutrality, in which the state vows to “remove as much carbon dioxide from the atmosphere as it emits” by 2045. How fleets respond is critical, because the transportation sector in California is the single biggest contributor of greenhouse gas and nitrogen oxide and diesel particulate matter emissions into the atmosphere.[6]

These environmental and monetary concerns are what’s driving fleet managers in their search for fuel options. The most popular are noted below:

1.    Rightsizing the fleet to mix in more fuel-efficient trucks

2.    Converting to alternative fuels such as biodiesel, compressed natural or petroleum gases, and electricity

Both approaches can help fleet managers achieve some of their business or budgetary goals, but they fall short of fully addressing fuel-spend challenges—unless fleet managers also focus on ways to lower the maintenance costs that arise from their fuel choice.

Rightsizing the Fleet

In an attempt to curtail fuel costs, fleet managers often optimize their inventories by removing older trucks and adding more fuel-efficient versions. But they cannot move fast enough.

The typical life cycle for a long-haul tractor can be five to seven years when driving 200,000 miles a year, and as many as 20 years for a vehicle driven on many short trips within a city.[7] Few, if any, operators have the budget to replace their entire fleet at once, so they are likely to continue to operate trucks with internal combustion engines for years to come.

Most of these engines burn conventional CARB (ULSD) petroleum diesel. While it’s a hydrocarbon fuel that meets the ASTM-D975 standard, petroleum diesel contains aromatics that do not combust easily. In the process, engine oil is contaminated, injectors become fouled and diesel particulate filters (DPF) clog. Therefore, fleet managers must plan for maintenance and other costs when they take trucks out of service for repairs.

Substituting Biodiesel for CARB Diesel

Fleet managers also experiment with alternatives to petroleum diesel, including biodiesel (B6-B20) blends.

As a first-generation alternative, biodiesel is a non-hydrocarbon fuel produced from renewable feedstocks. That’s a plus for fleet managers concerned with achieving sustainability goals.

While biodiesel is touted as a CARB diesel substitute, the ASTM-D975 standard allows for its use as a blend that’s only 5 percent biodiesel. The downside, of course, is the inconsistent quality of all CARB diesel fuels can add to maintenance costs and the time that trucks must be out of service for repairs.

Waiting for Electric Vehicles

In additional to combustible fuel alternatives, battery-powered trucks are on the horizon as a possible long-term solution to reduce fuel costs and help fleets comply with stricter environmental standards.

Established truck manufacturers and new entrants are rushing to provide electric powertrains that eliminate tailpipe emissions. Indeed, electrified Class 8 and other heavy-duty trucks are being tested now, and some fleets are beginning to invest in the vehicles. A large majority of fleet managers (83 percent in one recent survey[8]) are motivated by sustainability and environmental goals.

Despite that optimism, fleet managers should expect electrification of Class 8 and heavy-duty trucks to be a slow ride. The top barriers to widespread investment include higher purchase costs and inadequate charging facilities. Nine out of 10 fleet managers say their facilities are not “very well equipped” to accommodate commercial charging needs.[9] And for trucks running longer trips, a network of charging stations along the route does not exist.

Investing in Renewable Diesel for the Long Haul

One alternative fuel available right now is a second generation of biofuel called renewable diesel. It’s lesser known than other fuels, but during the past decade it’s been proven to burn cleanly and to reduce maintenance costs.

Renewable diesel is a non-petroleum hydrocarbon fuel made from 100 percent renewable raw materials, including animal and plant waste. Unlike conventional refining of petroleum diesel, the bio-based feedstocks, and the specialized refining process used to make renewable diesel, ensure that the final product has none of the aromatics and impurities that can harm operators, irritate bystanders and damage engine parts.

Neste recently sold its one billionth gallon of Neste MY Renewable Diesel™ in California. That’s a drop in the barrel given the size of the diesel market in the state—about 4.2 billion gallons a year.[10] Nevertheless, an increasing number of fleet managers today rely on this alternative fuel to power Class 8 trucks on day trips and on longer runs across California. Throughout the state, fleet managers also deliver critical municipal services with renewable diesel in fire trucks, garbage trucks, buses and other locally driven vehicles.

Here’s why these fleet managers trust renewable diesel:

Renewable Diesel Adds Up to Reduced Costs

The cost of renewable diesel and other alternative fuels closely tracks market price fluctuations for petroleum diesel. There’s no way sure way to spend less, except to drive less. However, that’s not a real business choice.

Instead, the smart play for fleet managers wrestling with how to better manage fuel spend is to lower maintenance costs. It’s the only variable they can control. To contribute to that effort, Neste plans to open a limited number of cardlock stations in California. These facilities enable fleets to capture every benefit possible from renewable diesel by burning it exclusively throughout a trip.

Technology aside, the biggest impact fleet managers can make now and over the long haul is to switch from petroleum diesel to renewable diesel. After 10 years of successful use on California’s roads, it’s clear that renewable diesel provides the power and performance fleet managers expect—and helps them reduce engine maintenance costs—now and for years to come.

This article was originally published on


[1] U.S. Energy Information Administration Independent Statistics and Analysis, “Petroleum & Other Liquids,” October 29, 2018, (accessed October 30, 2018).

[2] California Energy Commission, “Transportation Energy Demand Forecast 2018-2030,” Revised April 19, 2018, October 30, 2018).

[3] Ibid.

[4] Ibid.

[5] Ibid.

[6] Ibid.

[7] Ibid.

[8] Trucking Info, “Why Large Fleets Resist Electric Vehicles,” October 12, 2018, (accessed October 30, 2018).

[9] Ibid.

[10] California Energy Commission, “Transportation Energy Demand Forecast 2018-2030,” Revised April 19, 2018, October 30, 2018).

[11] U.S. Environmental Protection Agency, “Greenhouse Gas Equivalencies Calculator,” (accessed October 30, 2018).

[12] Ibid.