Abstract
IntroductionCompleting urban freight deliveries is increasingly a challenge in congested urban areas, particularly when delivery trucks are required to meet time windows. Depending on the route characteristics, Electric Assist (EA) cargo bicycles may serve as an economically viable alternative to delivery trucks. The purpose of this paper is to compare the delivery route cost trade-offs between box delivery trucks and EA cargo bicycles that have the same route and delivery characteristics, and to explore the question, under what conditions do EA cargo bikes perform at a lower cost than typical delivery trucks?MethodsThe independent variables, constant variables, and assumptions used for the cost function comparison model were gathered through data collection and a literature review. A delivery route in Seattle was observed and used as the base case; the same route was then modelled using EA cargo bicycles.Four separate delivery scenarios were modeled to evaluate how the following independent route characteristics would impact delivery route cost - distance between a distribution center (DC) and a neighborhood, number of stops, distance between each stop, and number of parcels per stop.ResultsThe analysis shows that three of the four modeled route characteristics affect the cost trade-offs between delivery trucks and EA cargo bikes. EA cargo bikes are more cost effective than delivery trucks for deliveries in close proximity to the DC (less than 2 miles for the observed delivery route with 50 parcels per stop and less than 6 miles for the hypothetical delivery route with 10 parcels per stop) and at which there is a high density of residential units and low delivery volumes per stop.ConclusionDelivery trucks are more cost effective for greater distances from the DC and for large volume deliveries to one stop.
Highlights
Completing urban freight deliveries is increasingly a challenge in congested urban areas, when delivery trucks are required to meet time windows
The objective of this research is to explore the question, under which route conditions and delivery characteristics do Electric Assist (EA) cargo bikes perform at a lower cost? This research is motivated by a need to develop a methodological approach that can be replicated and to quantify how bikes may perform in comparison to a standard delivery truck
The distance between the distribution center (DC) and delivery neighborhood is modeled from 0 to 10 miles (16.1 km). This shows that where the distance between DC and delivery neighborhood was greater than 2 miles (3.2 km), it was more cost efficient to use a delivery truck in comparison to EA cargo bikes
Summary
Completing urban freight deliveries is increasingly a challenge in congested urban areas, when delivery trucks are required to meet time windows. This research is motivated by a need to develop a methodological approach that can be replicated and to quantify how bikes may perform in comparison to a standard delivery truck This question is investigated by capturing route costs associated with each transportation mode in four different delivery scenarios, and by identifying the conditions under which either delivery alternative is preferred with this measurement framework. Freight infrastructure in metropolitan areas is unlikely to significantly change to accommodate this increase, and it is important to consider alternative delivery modes It is clear from traffic congestion, idling trucks, and the lack of sufficient Commercial Vehicle Load Zones (designated freight curb space) that current freight infrastructure is challenged to meet the diverse and dynamic delivery needs of the last mile, which is described as the most costly part of the supply chain in which goods are transported between a DC or warehouse and the recipient’s location [2].
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