Transient traffic energy‐use analysis employing video‐tracking and microscopic modeling techniques: A case study using electric and combustion engine vehicles

Adolfo Hernández‐Moreno; Ulises Diego‐Ayala; Aron Jazcilevich; Iván Y. Hernández‐Paniagua; Juan C. Zavala‐Reyes; Antonio Suárez; Irma Rosas‐Pérez

doi:10.1002/ese3.1148

Energy Science & Engineering (Jul 2022)

Transient traffic energy‐use analysis employing video‐tracking and microscopic modeling techniques: A case study using electric and combustion engine vehicles

Adolfo Hernández‐Moreno,
Ulises Diego‐Ayala,
Aron Jazcilevich,
Iván Y. Hernández‐Paniagua,
Juan C. Zavala‐Reyes,
Antonio Suárez,
Irma Rosas‐Pérez

Affiliations

Adolfo Hernández‐Moreno: Instituto de Ciencias de la Atmósfera y Cambio Climático, Universidad Nacional Autónoma de México Circuito de la Investigación Científica S/N, Ciudad Universitaria Ciudad de México México
Ulises Diego‐Ayala: Escola Universitària Salesiana de Sarrià (EUSS) Barcelona Spain
Aron Jazcilevich: Instituto de Ciencias de la Atmósfera y Cambio Climático, Universidad Nacional Autónoma de México Circuito de la Investigación Científica S/N, Ciudad Universitaria Ciudad de México México
Iván Y. Hernández‐Paniagua: Instituto de Ciencias de la Atmósfera y Cambio Climático, Universidad Nacional Autónoma de México Circuito de la Investigación Científica S/N, Ciudad Universitaria Ciudad de México México
Juan C. Zavala‐Reyes: Instituto de Ciencias de la Atmósfera y Cambio Climático, Universidad Nacional Autónoma de México Circuito de la Investigación Científica S/N, Ciudad Universitaria Ciudad de México México
Antonio Suárez: Facultad de Arquitectura Universidad Nacional Autónoma de México Ciudad de México México
Irma Rosas‐Pérez: Instituto de Ciencias de la Atmósfera y Cambio Climático, Universidad Nacional Autónoma de México Circuito de la Investigación Científica S/N, Ciudad Universitaria Ciudad de México México

DOI: https://doi.org/10.1002/ese3.1148
Journal volume & issue: Vol. 10, no. 7
pp. 2022 – 2034

Abstract

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Abstract A system to obtain vehicular energy‐use and emissions in transient traffic is proposed. It operates at a microscopic 1‐s time scale, capturing critical stop‐and‐go dynamics in a controlled and repeatable computational environment. This allowed the definition of a sensitivity function linking energy‐use to traffic flow, providing an additional comparison parameter. To obtain the dynamics data, crucial for transient traffic modeling implementation and validation, a video‐tracking technique is used to overcome velocimeter and GPS data shortcomings. This approach allowed to observe and reproduce a traffic scene and agreed with a M/D/n queuing traffic model. Once the system contains precise dynamics, it can be implemented for traffic scenarios such as intersections, school areas, or future road projects. Any simulated vehicular technology can be incorporated into the analysis. A case study was implemented using 1000 electric (EV) and combustion engine vehicles (CV) interacting with trucks, buses, and motorcycles, while monitoring individual vehicular systems. These included the powertrain and regenerative braking to obtain energy‐use and emissions. EVs proved to be not only more efficient, but less sensitive to traffic buildup than CVs. The techniques presented here, lend themselves to technological design and evaluation and allows testing real‐life vehicular systems for sustainable traffic and energy planning.

Published in Energy Science & Engineering

ISSN: 2050-0505 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology; Science
Website: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2050-0505

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