Sustainable solutions for reducing air-conditioning costs and tailpipe emissions from heavy-duty transportation across Europe
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Sustainable solutions for reducing air-conditioning costs and tailpipe emissions from heavy-duty transportation across Europe. / Alves, Pedro G; Vale, João P; Nybo, Lars; Flouris, Andreas D; Mayor, Tiago S.
In: International Journal of Sustainable Transportation, Vol. 17, No. 6, 2023, p. 711-725.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Sustainable solutions for reducing air-conditioning costs and tailpipe emissions from heavy-duty transportation across Europe
AU - Alves, Pedro G
AU - Vale, João P
AU - Nybo, Lars
AU - Flouris, Andreas D
AU - Mayor, Tiago S
N1 - Publisher Copyright: © 2022 Taylor & Francis Group, LLC.
PY - 2023
Y1 - 2023
N2 - Heavy-duty trucks emit >25% of the CO2 of the European road transport sector despite representing ≈2.5% of its fleet. Escalating temperatures associated to global warming will increase the use of air-conditioning (AC) in heavy-duty trucks, further raising their fuel consumption and emissions. Thus, sustainable solutions are needed to reduce the thermal loads affecting the truck cabins, to minimize the need for AC and decrease the sector’s costs and environmental footprint. We assessed the economic and environmental impact of AC use in the European heavy-duty transportation fleet, for realistic environmental conditions throughout the year, across the different European regions. Potential reductions were estimated for various changes in the optical properties of the cabin external paints and glazing elements (windshield and side-windows). The use of high-reflectivity paints in the cabin external surfaces and low-transmissivity glazing can reduce fuel costs by ≈€195 million/year across Europe (i.e., ≈0.1% of the total fuel costs of the European heavy-duty fleet), and decrease CO2 emissions by 1% of the reduction target set for 2025. These potential reductions highlight the importance of engaging with transportation stakeholders (e.g., workers unions, vehicle manufacturers, policymakers, and regulating bodies), to raise awareness about the potential benefits for the European transportation sector and the environment, and to promote the necessary adaptation in the transportation fleets.
AB - Heavy-duty trucks emit >25% of the CO2 of the European road transport sector despite representing ≈2.5% of its fleet. Escalating temperatures associated to global warming will increase the use of air-conditioning (AC) in heavy-duty trucks, further raising their fuel consumption and emissions. Thus, sustainable solutions are needed to reduce the thermal loads affecting the truck cabins, to minimize the need for AC and decrease the sector’s costs and environmental footprint. We assessed the economic and environmental impact of AC use in the European heavy-duty transportation fleet, for realistic environmental conditions throughout the year, across the different European regions. Potential reductions were estimated for various changes in the optical properties of the cabin external paints and glazing elements (windshield and side-windows). The use of high-reflectivity paints in the cabin external surfaces and low-transmissivity glazing can reduce fuel costs by ≈€195 million/year across Europe (i.e., ≈0.1% of the total fuel costs of the European heavy-duty fleet), and decrease CO2 emissions by 1% of the reduction target set for 2025. These potential reductions highlight the importance of engaging with transportation stakeholders (e.g., workers unions, vehicle manufacturers, policymakers, and regulating bodies), to raise awareness about the potential benefits for the European transportation sector and the environment, and to promote the necessary adaptation in the transportation fleets.
KW - Air-conditioning
KW - Fuel consumption
KW - Heavy-duty trucks
KW - High-reflectivity paints
KW - Low-transmissivity glazing
KW - Tailpipe emissions
U2 - 10.1080/15568318.2022.2088319
DO - 10.1080/15568318.2022.2088319
M3 - Journal article
AN - SCOPUS:85133190224
VL - 17
SP - 711
EP - 725
JO - International Journal of Sustainable Transportation
JF - International Journal of Sustainable Transportation
SN - 1556-8318
IS - 6
ER -
ID: 315531375