Trucks are a major contributor to the growth in transport-fuel consumption. But the sector gets far less attention and policy focus than passenger vehicles.
Improving the efficiency of road-freight transport is critical to reducing the growth in oil demand, carbon emissions and air pollution over the next decades, according to the International Energy Agency’s latest report, The Future of Trucks: Implications for energy and the environment.
Trucks are a major contributor to the growth in transport-fuel consumption, as well as rising carbon dioxide and air pollutant emissions. But the sector gets far less attention and policy focus than passenger vehicles. Only four countries have energy-efficiency standards for heavy trucks, compared with about 40 countries with passenger-vehicle standards.
Yet the growth in oil demand from trucks has outpaced all other sectors – including passenger cars, aviation, industry and petrochemical feedstocks – since 2000 and contributed 40% to global oil demand growth, a similar contribution as cars. Today, trucks account for almost a fifth of global oil demand, or around 17 million barrels per day, equivalent to the combined oil production of the United States and Canada. It also accounts for about half of global diesel use, a third of all transport-related carbon emissions and a fifth of NOx emissions, a key air pollutant.
Trucks are a key enabler of global economic activity and play an essential role in delivering goods or commodities across every point of the economic value chain, from production to sale.
The main drivers of oil demand from trucks today are the United States, the European Union and China, while India is emerging as a growing contributor. Economic growth, particularly in Asia, will continue to boost oil demand from trucking in the future.
The IEA highlights three major areas of improvement. First, the trucking sector can improve logistics and systems operations in order to be more efficient. This includes near-term opportunities like using Global Positioning System to optimise truck routing, as well as real-time feedback devices that monitor the on-road fuel economy of trucks.
Greater improvements on that front will require increased cooperation, as well as the exchange of data, information and assets across the entire supply chain. This can help increase the volume or weight of cargo hauled to improve the load on each trip, but also reduce the number of trips during which trucks are running empty, such as travel taken without any load at all after having delivered the goods.
Second, the IEA report finds that energy-efficiency improvements for the existing fleet should include aerodynamic retrofits to reduce drag as well as low-rolling resistance tires. New trucks can use additional technologies that cut idling, use lightweight materials and take advantage of improvements to truck engines, transmissions and drivetrains. Achieving stronger cuts in fuel use, carbon dioxide and pollutant emissions requires the use of hybrids and zero emission trucks.
Finally, using alternative fuels such as natural gas, biofuels, electricity and hydrogen can diversify fuel supply away from oil and also help reduce carbon emissions, especially if produced from low-carbon pathways.
While some of the improvements necessary may be expensive or complex, many can be easily accomplished in the near-term by strong policy support, according to the report. Some of these opportunities include tightening fuel-economy standards, making better use of data and providing support for research and development into alternative fuels.