Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application

Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application

The total energy demand in the transport sector represented 48.80% of the total consumption in Ecuador throughout 2016, where 89.87% corresponded to the road transport sector. Therefore, it is crucial to analyze the future behavior of this sector and assess the economic and environmental measures to...

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Main Authors: Luis Rivera-González, David Bolonio, Luis F. Mazadiego, Sebastián Naranjo-Silva, Kenny Escobar-Segovia
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sustainability
Subjects:
sustainable energy
alternative fuels
energy forecast
energy policies
road transport sector
ecuador
Online Access:https://www.mdpi.com/2071-1050/12/2/472
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spelling doaj-ce437ecbbf1547d98fbe10e849531a662020-11-25T01:35:49ZengMDPI AGSustainability2071-10502020-01-0112247210.3390/su12020472su12020472Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model ApplicationLuis Rivera-González0David Bolonio1Luis F. Mazadiego2Sebastián Naranjo-Silva3Kenny Escobar-Segovia4Department of Energy and Fuels, Mining and Energy Engineering School, Universidad Politécnica de Madrid, 28003 Madrid, SpainDepartment of Energy and Fuels, Mining and Energy Engineering School, Universidad Politécnica de Madrid, 28003 Madrid, SpainDepartment of Energy and Fuels, Mining and Energy Engineering School, Universidad Politécnica de Madrid, 28003 Madrid, SpainUniversity Research Institute for Sustainability Science and Technology, Transversal Unit of Road Scope Management, Universidad Politécnica de Catalunya, 08034 Barcelona, SpainCampus Gustavo Galindo, Escuela Superior Politécnica del Litoral, ESPOL, Guayaquil P.O. Box 09-01-5863, EcuadorThe total energy demand in the transport sector represented 48.80% of the total consumption in Ecuador throughout 2016, where 89.87% corresponded to the road transport sector. Therefore, it is crucial to analyze the future behavior of this sector and assess the economic and environmental measures towards sustainable development. Consequently, this study analyzed: (1) the total energy demand for each vehicle class and fuel type; (2) the GHG (greenhouse gas) emissions and air pollutants NO<sub>x</sub> and PM<sub>10</sub>; and (3) the cost attributed to the fuel demand, between 2016 and 2035. For this, four alternative demand scenarios were designed: BAU: Business As Usual; EOM: Energy Optimization and Mitigation; AF: Alternative Fuels; and SM: Sustainable Mobility using Long-range Energy Alternatives Planning system. After analysis, the EOM, AF, and SM scenarios have advantages relative to BAU, where SM particularly stands out. The results show that SM compared to BAU, contributes with a 12.14% (141,226 kBOE) decrease of the total energy demand, and the economic savings for this fuel demand is of 14.22% (26,720 MUSD). Moreover, global NO<sub>x</sub> and PM<sub>10</sub> emissions decreased by 14.91% and 13.78%, respectively. Additionally, accumulated GHG emissions decreased by 13.49% due to the improvement of the fuel quality for the vehicles that mainly consume liquefied petroleum gas, natural gas, and electricity.https://www.mdpi.com/2071-1050/12/2/472sustainable energyalternative fuelsenergy forecastenergy policiesroad transport sectorecuador
collection DOAJ
language English
format Article
sources DOAJ
author Luis Rivera-González
David Bolonio
Luis F. Mazadiego
Sebastián Naranjo-Silva
Kenny Escobar-Segovia
spellingShingle Luis Rivera-González
David Bolonio
Luis F. Mazadiego
Sebastián Naranjo-Silva
Kenny Escobar-Segovia
Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
Sustainability
sustainable energy
alternative fuels
energy forecast
energy policies
road transport sector
ecuador
author_facet Luis Rivera-González
David Bolonio
Luis F. Mazadiego
Sebastián Naranjo-Silva
Kenny Escobar-Segovia
author_sort Luis Rivera-González
title Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
title_short Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
title_full Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
title_fullStr Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
title_full_unstemmed Long-Term Forecast of Energy and Fuels Demand Towards a Sustainable Road Transport Sector in Ecuador (2016–2035): A LEAP Model Application
title_sort long-term forecast of energy and fuels demand towards a sustainable road transport sector in ecuador (2016–2035): a leap model application
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2020-01-01
description The total energy demand in the transport sector represented 48.80% of the total consumption in Ecuador throughout 2016, where 89.87% corresponded to the road transport sector. Therefore, it is crucial to analyze the future behavior of this sector and assess the economic and environmental measures towards sustainable development. Consequently, this study analyzed: (1) the total energy demand for each vehicle class and fuel type; (2) the GHG (greenhouse gas) emissions and air pollutants NO<sub>x</sub> and PM<sub>10</sub>; and (3) the cost attributed to the fuel demand, between 2016 and 2035. For this, four alternative demand scenarios were designed: BAU: Business As Usual; EOM: Energy Optimization and Mitigation; AF: Alternative Fuels; and SM: Sustainable Mobility using Long-range Energy Alternatives Planning system. After analysis, the EOM, AF, and SM scenarios have advantages relative to BAU, where SM particularly stands out. The results show that SM compared to BAU, contributes with a 12.14% (141,226 kBOE) decrease of the total energy demand, and the economic savings for this fuel demand is of 14.22% (26,720 MUSD). Moreover, global NO<sub>x</sub> and PM<sub>10</sub> emissions decreased by 14.91% and 13.78%, respectively. Additionally, accumulated GHG emissions decreased by 13.49% due to the improvement of the fuel quality for the vehicles that mainly consume liquefied petroleum gas, natural gas, and electricity.
topic sustainable energy
alternative fuels
energy forecast
energy policies
road transport sector
ecuador
url https://www.mdpi.com/2071-1050/12/2/472
work_keys_str_mv AT luisriveragonzalez longtermforecastofenergyandfuelsdemandtowardsasustainableroadtransportsectorinecuador20162035aleapmodelapplication
AT davidbolonio longtermforecastofenergyandfuelsdemandtowardsasustainableroadtransportsectorinecuador20162035aleapmodelapplication
AT luisfmazadiego longtermforecastofenergyandfuelsdemandtowardsasustainableroadtransportsectorinecuador20162035aleapmodelapplication
AT sebastiannaranjosilva longtermforecastofenergyandfuelsdemandtowardsasustainableroadtransportsectorinecuador20162035aleapmodelapplication
AT kennyescobarsegovia longtermforecastofenergyandfuelsdemandtowardsasustainableroadtransportsectorinecuador20162035aleapmodelapplication
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