scholarly journals Energy use reduction potential of passenger transport in Europe

2000 ◽  
Vol 20 (2) ◽  
pp. 191-203 ◽  
Author(s):  
M. E. Bouwman ◽  
H. C. Moll
Keyword(s):  
Energy Use ◽  
Reduction Potential ◽  
Passenger Transport

Trends in passenger transport and freight energy use in Spain

Energy Policy ◽  
2011 ◽  
Vol 39 (10) ◽  
pp. 6466-6475 ◽  
Author(s):  
María Mendiluce ◽  
Lee Schipper
Keyword(s):  
Energy Use ◽  
Passenger Transport

scholarly journals Energy Efficiency or Conservation for Mitigating Climate Change?

Energies ◽  
2019 ◽  
Vol 12 (18) ◽  
pp. 3543 ◽  
Author(s):  
Patrick Moriarty ◽  
Damon Honnery
Keyword(s):  
Climate Change ◽  
Energy Efficiency ◽  
Nuclear Energy ◽  
Fossil Fuels ◽  
Energy Use ◽  
Fossil Fuel ◽  
High Energy ◽  
Passenger Transport ◽  
Domestic Energy ◽  
To Come

Given that global energy use today is still dominated by fossil fuels, there is an urgent need to rapidly reduce its use in order to avert serious climate change. However, the alternatives to fossil fuels—renewable and nuclear energy—are more expensive, and have so far done little to displace fossil fuels. Accordingly, reducing energy use must play an important part in both averting climate change and avoiding the depletion of high energy return easily recoverable fossil fuel reserves. This paper examined both the potential and barriers to the adoption of energy reduction measures, with particular attention to domestic energy and passenger transport. The main finding was that energy efficiency approaches alone are unlikely to deliver anywhere near the energy reductions needed in the limited time available. Instead, most energy reductions will have to come from energy conservation, involving less use of energy-using devices, including private vehicles. Achieving such reductions will require changes in lifestyles, especially for residents of OECD nations.

Trends in passenger transport energy use in South Korea

Energy Policy ◽  
2010 ◽  
Vol 38 (7) ◽  
pp. 3598-3607 ◽  
Author(s):  
Jiyong Eom ◽  
Lee Schipper
Keyword(s):  
South Korea ◽  
Energy Use ◽  
Passenger Transport ◽  
Transport Energy Use

scholarly journals The Energy Consumption of Passenger Vehicles in a Transformed Mobility System with Autonomous, Shared and Fit-For-Purpose Electric Vehicles in the Netherlands

2021 ◽  
Vol 15 (1) ◽  
pp. 201-209
Author(s):  
Peter Hogeveen ◽  
Maarten Steinbuch ◽  
Geert Verbong ◽  
Auke Hoekstra
Keyword(s):  
Energy Consumption ◽  
The Netherlands ◽  
Electric Vehicles ◽  
Energy Use ◽  
Autonomous Driving ◽  
Passenger Transport ◽  
Passenger Vehicles ◽  
Mobility System ◽  
Fit For Purpose ◽  
Autonomous Electric Vehicles

Aims: This article explores the tank-to-wheel energy consumption of passenger transport at full adoption of fit-for-purpose shared and autonomous electric vehicles. Background: The energy consumption of passenger transport is increasing every year. Electrification of vehicles reduces their energy consumption significantly but is not the only disruptive trend in mobility. Shared fleets and autonomous driving are also expected to have large impacts and lead to fleets with one-person fit-for-purpose vehicles. The energy consumption of passenger transport in such scenarios is rarely discussed and we have not yet seen attempts to quantify it. Objective: The objective of this study is to quantify the tank-to-wheel energy consumption of passenger transport when the vehicle fleet is comprised of shared autonomous and electric fit-for-purpose vehicles and where cheap and accessible mobility leads to significantly increased mobility demand. Methodology: The approach consists of four steps. First, describing the key characteristics of a future mobility system with fit-for-purpose shared autonomous electric vehicles. Second, estimating the vehicle miles traveled in such a scenario. Third, estimating the energy use of the fit-for-purpose vehicles. And last, multiplying the mileages and energy consumptions of the vehicles and scaling the results with the population of the Netherlands. Results: Our findings show that the daily tank-to-wheel energy consumption from Dutch passenger transport in full adoption scenarios of shared autonomous electric vehicles ranges from 700 Wh to 2200 Wh per capita. This implies a reduction of 90% to 70% compared to the current situation. Conclusion: Full adoption of shared autonomous electric vehicles could increase the vehicle-miles-travelled and thus energy use of passenger transport by 30% to 150%. Electrification of vehicles reduces energy consumption by 75%. Autonomous driving has the potential of reducing the energy consumption by up to 40% and implementing one-person fit-for-purpose vehicles by another 50% to 60%. For our case study of the Netherlands, this means that the current 600 TJ/day that is consumed by passenger vehicles will be reduced to about 50 to 150 TJ/day at full adoption of SAEVs.

scholarly journals Decomposing the Influencing Factors of Energy Intensity in the Passenger Transportation Sector in Indonesia

2020 ◽  
Vol 22 (3) ◽  
pp. 49-58
Author(s):  
Dhani Setyawan
Keyword(s):  
Energy Consumption ◽  
Energy Use ◽  
Energy Intensity ◽  
Structural Effect ◽  
Transport Sector ◽  
Passenger Transport ◽  
Intensity Effect ◽  
Passenger Transportation ◽  
Transportation Sector ◽  
Final Energy Consumption

Indonesia's transport sector has experienced rapid growth that has caused excessive fossil fuel energy consumption. Over 2000 to 2016 total final energy consumption in Indonesia’s transport sector has grown by 10% per annum so that transport now provides a large and rapidly growing component of total energy use. This study analyzes the specific characteristics of energy intensity in the transportation sector in Indonesia from 2000 to 2016 by employing a multiplicative Log Mean Divisia Index-II. The passenger transport sector in Indonesia, including the four modes of road, rail, water and air is examined in this study. Overall, the decline in energy intensity in passenger transport is attributed to the intensity effect. In passenger transport, the improvement of intensity effect was found to have significantly reduced the overall aggregate energy intensity, while the change in structural effect was found to have a relatively small reduction in the aggregate energy intensity.

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