School Bus BioDiesel¤

School Bus Overview¤

The School Bus is engineered to transport 15 or more passengers, serving primarily in the conveyance of students to and from educational institutions.

School Bus Performance Metrics¤

Annual Distance (d_annual): The school bus covers an annual distance of 24,000 km.
Average Occupancy Rate (n_lpv): It boasts an average loading capacity accommodating 47 passengers per vehicle.
Utilization Window: The vehicle is utilized for 5.26 hours per day, translating to a 22% capacity utilization, according to the study by Duran and Walkowicz¹.
Reference Capacity: The reference capacity, derived from these parameters, is calculated to be 585.31 passenger-kilometers per hour (pkm/h), utilizing the formula:

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

Where c_p represents the capacity utilization percentage. Where the denominator reflects the total hours in a year multiplied by the capacity utilization factor.

B100 Biodiesel¤

B100 Biodiesel fuel is a diesel alternative derived entirely from biomass. It runs on 100% biodiesel, contributing to carbon emissions reductions in comparison to fossil fuels. Only blends of biodiesel and petroleum diesel containing 7% vol. or less of biodiesel can be used in diesel engines without modification. Pure biodiesel (B100) requires engine modifications to avoid maintenance and performance problems.

Model Remarks:¤

The model treats vehicles that use biodiesel and those that use traditional diesel as equivalent in technical aspects. It is worth noting that in the current version of QC EnergyScope, biodiesel is treated the same as diesel and will require modification in a future version.

ES Model Parameters¤

All the parameters concerning the School Bus BioDiesel are listed in the table below.

entry_key	value	unit	sets	source_reference
BIO_DIESEL (layer)	-0.062	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"
CO2_E (layer)	0.016	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"
MOB_PUBLIC_LOCAL (layer)	1	pkm	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	228.94	CAD/(pkm/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	74.49	CAD/(pkm/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	585.31	pkm/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"

Adam Duran and Kevin Walkowicz, “A Statistical Characterization of School Bus Drive Cycles Collected via Onboard Logging Systems,” SAE International Journal of Commercial Vehicles 6, no. 2 (September 24, 2013): 400-406, https://doi.org/10.4271/2013-01-2400 ⧉. ↩