Skip to content

LCV Diesel¤

Light Commercial Vehicle Class Overview¤

The Light Commercial Vehicle class encompasses four-wheeled, two-axle vehicles, primarily designed for goods transportation. These vehicles are notable for their adaptability to a range of cargo needs, demonstrating versatility in the light-duty commercial sector.

Light Commercial Vehicle Performance Metrics¤

  • Operational Distance (dannual): On an annual basis, these vehicles are capable of covering a distance of 38,600 km.
  • Average Cargo Weight (nlpv): They support an average cargo weight of 0.19 tonnes per vehicle, accommodating the transportation needs of various goods.
  • Capacity Factor: A 10% capacity utilization factor is applied to account for frequent stops and loading times, which are characteristic of their operational environment.
  • Reference Efficiency: This results in a reference efficiency of 8.37 tonne-kilometers per hour (tkm/h), underlining their essential role in fulfilling light-duty commercial transportation tasks.

The reference efficiency is calculated as follows:

\[ ref_{efficiency} = \dfrac{d_{annual} \cdot n_{lpv}}{8760 \cdot c_p} \]

Where cp represents the capacity utilization percentage. This formula reflects the annual operational distance, the average cargo weight, and the capacity utilization factor, offering a clear perspective on the efficiency and utility of Light Commercial Vehicles in commercial transportation.

Diesel¤

An internal combustion engine (ICE) is a type of heat engine where fuel combustion takes place inside a chamber. This causes an increase in temperature and pressure. This pressure is then applied directly to pistons, rotors or a nozzle, which converts the thermal energy of combustion into mechanical energy to move the vehicle. However, this combustion generates numerous substances with potential impacts on human health and the environment, including :

  • Carbon Dioxide (CO2): a GHG contributing to climate change and ocean acidification.

  • Nitrogen Oxides (NOx): precursors to the formation of photochemical ozone (smog), which promotes respiratory problems, and causes, among other things, the acidification of terrestrial and aquatic environments and the eutrophication of the marine environment.

  • Particle Matter (PM): potentially causing respiratory problems when inhaled.

  • Carbon Monoxide (CO): considered toxic to humans and animals.

Diesel engines, which also run on biodiesel and synthetic fuels, do not require spark plugs but rely on fuel vapour compression to trigger combustion.

Diesel fuel has an LHV of 11.83 [kWh/kg], making it a common choice for heavy-duty transportation due to its high energy density and efficiency.

ES Model Integration¤

All the parameters concerning the LCV Diesel are listed in the table below.

entry_key value unit sets source_reference
CO2_E (layer) 1.893 kg_CO2 NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
DIESEL (layer) -7.572 kWh NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
MOB_FREIGHT_ROAD (layer) 1 tkm NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
c_inv 8485.07 CAD/(tkm/h) NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
c_maint 844.77 CAD/(tkm/h)/y NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
lifetime 15 y NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"
ref_size 8.37 tkm/h NA Agez, Maxime; Ménard, Jean-François; Saunier, François, (2022): "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"

References¤

Data Sources
Agez, Maxime; Ménard, Jean-François; Saunier, François. (2022). "Analyse du Cycle de Vie de Filières Énergétiques et de Leur Utilisation pour le Transport Routier au Québec – Partie 2 : Utilisation"