Electric Vehicles In Shared Fleets: Mobility Management, Business Models, And Decision Support Systems PDF Download

Author: Kenan Degirmenci
Publisher: World Scientific
ISBN: 1800611439
Category : Business & Economics
Languages : en
Pages : 296

View

Book Description
The electrification of shared fleets offers numerous benefits, including the reduction of local emissions of pollutants, which leads to ecological improvements such as the improvement of air quality. Electric Vehicles in Shared Fleets considers a holistic concept for a socio-technical system with a focus on three core areas: integrated mobility solutions, business models for economic viability, and information systems that support decision-making for the successful implementation and operation of electric vehicles in shared fleets.In this book, we examine different aspects within these areas including multimodal mobility, grid integration of electric vehicles, shared autonomous electric vehicle services, relocation strategies in shared fleets, and the challenge of battery life of electric vehicles. Insights into the future of transport are provided, which is predicted to be shared, autonomous, and electric. This will require the expansion of the charging infrastructure to provide adequate premises for the electrification of transportation and to create market demand.

Author: David Beeton
Publisher: Springer
ISBN: 3319122444
Category : Technology & Engineering
Languages : en
Pages : 271

View

Book Description
This contributed volume collects insights from industry professionals, policy makers and researchers on new and profitable business models in the field of electric vehicles (EV) for the mass market. This book includes approaches that address the optimization of total cost of ownership. Moreover, it presents alternative models of ownership, financing and leasing. The editors present state-of-the-art insights from international experts, including real-world case studies. The volume has been edited in the framework of the International Energy Agency’s Implementing Agreement for Cooperation on Hybrid and Electric Vehicles (IA-HEV). The target audience primarily comprises practitioners and decision makers but the book may also be beneficial for research experts and graduate students.

Author: Daniele Fabrizio Bignami
Publisher: Springer
ISBN: 3319619640
Category : Technology & Engineering
Languages : en
Pages : 282

View

Book Description
This book examines electric car sharing in cities from a variety of perspectives, from service design to simulation, from mathematical modeling to technology deployment, and from energy use improvement to the integration of different kinds of vehicle. The contents reflect the outcomes of the Green Move project, undertaken by Politecnico di Milano with the aim of fostering an innovative and easily accessible electric vehicle sharing system. The first section of the book illustrates the car sharing service, covering service design, the configuration of the vehicle sharing model and the Milan mobility pattern, analysis of local demand and supply, testing of the condominium-based car sharing model, and communication design for social engagement. The second section then explains the technological choices, from the architecture of the system and dynamic applications to information management, the smartphone-based energy-oriented driving assistance system, automatic fleet balancing systems, and real-time monitoring of vehicle positions. In the final section, readers will find descriptions of the simulation model, a model to estimate potential users of the service, and a model for a full-scale electric car sharing service in Milan.

Author: Yikang Hua
Publisher:
ISBN:
Category :
Languages : en
Pages : 0

View

Book Description
The shared electric vehicle (EV) fleet holds high promise for providing eco-friendly transportation service. However, due to high operating costs and complicated logistics, EV penetration into car-sharing markets is not as smooth as expected. My dissertation aims to develop an innovative design, analysis and optimization framework for a sustainable EV sharing system that covers the entire life cycle of the fleet. We focus on developing mathematical models for the proposed EV sharing system, from initial infrastructure planning to management in later periods step by step. We start from a long-term planning perspective and explore the optimal infrastructure deployment to establish the EV sharing system. Based on this infrastructure and the information from the energy market, we explore the mobility service that provides resilience service for both power grid and transportation systems. With this mobility service and associated operating strategies, we calibrate the charging process on a single-vehicle basis by considering battery depletion to increase the long-term sustainability of the entire system. First, we propose an innovative framework to help a shared EV fleet determine where to deploy charging stations. In this work, long-term infrastructure planning and real-time fleet operations are jointly optimized under time-varying uncertain demand based on a multistage stochastic model. Second, we propose a so-called energy-sponge mobility service for a well-deployed shared EV fleet where the fleet serves as a mutual backup in both energy and transportation systems. We establish a two-stage stochastic model to provide systematic management strategies for such a power-grid-integrated EV sharing system under demand uncertainties. In this model, the bid process of an EV fleet operator in the day-ahead energy and reserve market constitutes the first stage, which is optimized based upon macroscopic modeling on the next-day operations of the EV fleet as the second stage. Third, we build a continuous-time Markov chain model to address the joint vehicle charging and moving problems for a large-scale EV sharing system with battery degradation concerns. This model can guide a shared EV fleet on charging device installation, vehicle relocation, and battery charging/replacing.

Author: Rodrigo Garcia-Valle
Publisher: Springer Science & Business Media
ISBN: 1461401348
Category : Technology & Engineering
Languages : en
Pages : 325

View

Book Description
Electric Vehicle Integration into Modern Power Networks provides coverage of the challenges and opportunities posed by the progressive integration of electric drive vehicles. Starting with a thorough overview of the current electric vehicle and battery state-of-the-art, this work describes dynamic software tools to assess the impacts resulting from the electric vehicles deployment on the steady state and dynamic operation of electricity grids, identifies strategies to mitigate them and the possibility to support simultaneously large-scale integration of renewable energy sources. New business models and control management architectures, as well as the communication infrastructure required to integrate electric vehicles as active demand are presented. Finally, regulatory issues of integrating electric vehicles into modern power systems are addressed. Inspired by two courses held under the EES-UETP umbrella in 2010 and 2011, this contributed volume consists of nine chapters written by leading researchers and professionals from the industry as well as academia.

Author: Daniel Sperling
Publisher: Island Press
ISBN: 161091905X
Category : Architecture
Languages : en
Pages : 253

View

Book Description
Front Cover -- About Island Press -- Subscribe -- Title Page -- Copyright Page -- Contents -- Preface -- Acknowledgments -- 1. Will the Transportation Revolutions Improve Our Lives-- or Make Them Worse? -- 2. Electric Vehicles: Approaching the Tipping Point -- 3. Shared Mobility: The Potential of Ridehailing and Pooling -- 4. Vehicle Automation: Our Best Shot at a Transportation Do-Over? -- 5. Upgrading Transit for the Twenty-First Century -- 6. Bridging the Gap between Mobility Haves and Have-Nots -- 7. Remaking the Auto Industry -- 8. The Dark Horse: Will China Win the Electric, Automated, Shared Mobility Race? -- Epilogue -- Notes -- About the Contributors -- Index -- IP Board of Directors

Author: Joachim Taiber
Publisher: Sae Edge Research Report
ISBN: 9781468601107
Category : Business & Economics
Languages : en
Pages : 24

View

Book Description
The current business model of the automotive industry is based on individual car ownership, yet new ridesharing companies such as Uber and Lyft are well capitalized to invest in large, commercially operated, on-demand mobility service vehicle fleets. Car manufacturers like Tesla want to incorporate personal car owners into part-time fleet operation by utilizing the company's fleet service. These robotaxi fleets can be operated profitably when the technology works in a reliable manner and regulators allow driverless operation. Although Mobility-as-a-Service (MaaS) models of private and commercial vehicle fleets can complement public transportation models, they may contribute to lower public transportation ridership and thus higher subsidies per ride. This can lead to inefficiencies in the utilization of existing public transportation infrastructure. MaaS platforms can also cause a reduced reliance on parking infrastructure (e.g., street parking lanes and parking garages) which can contribute to an improvement in overall traffic flow, and a reduction in capital investment for commercial and residential real-estate development. Urban planning can be better centered around the true mobility needs of the citizens without sacrificing valuable space for vehicles that are inactive most of the time. A key challenge is the transition phase where traditional forms of car ownership and transportation coexist with new forms of mobility services (before true MaaS platforms are fully optimized). Another fundamental issue is determining the true cost of car ownership and establishing ideal cost structures for on-demand mobility services in order to replace the need of owning a car. This needs to occur without compromising subsidized public transportation which provides affordable transportation for low-income groups. NOTE: SAE EDGE(TM) Research Reports are intended to identify and illuminate key issues in emerging, but still unsettled, technologies of interest to the mobility industry. The goal of SAE EDGE(TM) Research Reports is to stimulate discussion and work in the hope of promoting and speeding resolution of identified issues. SAE EDGE(TM) Research Reports are not intended to resolve the issues they identify or close any topic to further scrutiny.

Author: Lance Noel
Publisher: Springer
ISBN: 3030048640
Category : Technology & Engineering
Languages : en
Pages : 237

View

Book Description
​This book defines and charts the barriers and future of vehicle-to-grid technology: a technology that could dramatically reduce emissions, create revenue, and accelerate the adoption of battery electric cars. This technology connects the electric power grid and the transportation system in ways that will enable electric vehicles to store renewable energy and offer valuable services to the electricity grid and its markets. To understand the complex features of this emergent technology, the authors explore the current status and prospect of vehicle-to-grid, and detail the sociotechnical barriers that may impede its fruitful deployment. The book concludes with a policy roadmap to advise decision-makers on how to optimally implement vehicle-to-grid and capture its benefits to society while attempting to avoid the impediments discussed earlier in the book.

Author: Lance Noel
Publisher: Palgrave Macmillan
ISBN: 9783030048631
Category : Technology & Engineering
Languages : en
Pages : 0

View

Book Description
​This book defines and charts the barriers and future of vehicle-to-grid technology: a technology that could dramatically reduce emissions, create revenue, and accelerate the adoption of battery electric cars. This technology connects the electric power grid and the transportation system in ways that will enable electric vehicles to store renewable energy and offer valuable services to the electricity grid and its markets. To understand the complex features of this emergent technology, the authors explore the current status and prospect of vehicle-to-grid, and detail the sociotechnical barriers that may impede its fruitful deployment. The book concludes with a policy roadmap to advise decision-makers on how to optimally implement vehicle-to-grid and capture its benefits to society while attempting to avoid the impediments discussed earlier in the book.

Author: Yves Crozet
Publisher: Centre on Regulation in Europe asbl (CERRE)
ISBN:
Category : Transportation
Languages : en
Pages : 82

View

Book Description
This CERRE report finds that to effectively reduce congestion and pollution in cities, policies should focus primarily on the rarest resource: space. Mobility as a Service (MaaS) also has a role to play in the transition towards truly sustainable mobility. But this is provided regulation guarantees that new mobility models complement and not substitute for public transport. European cities have been trying to enhance their mobility and transport systems, while reducing congestion, pollution, CO2 emissions, noise and accidents. Local transport policies across countries strive to encourage car drivers to switch to public transport, but with limited success. The authors of the report find that the lack of success of policies to encourage the switch to public transport is often due to the alleged trouble of using other transportation modes compared to the convenience of private cars. “If cities are to effectively reduce congestion and pollution, regulation of access to cities must change dramatically. Until now, the constraints on the use of cars have largely remained low”, explain the authors. “An approach promising individual time savings will not benefit the collective interest. To be efficient, policies should focus primarily on the rarest resource for the community: space. Transport authorities must intervene on the uses of roads, sidewalks and pedestrian zones. It is up to them to define the balance between the different uses of roads”. In addition, public authorities should significantly develop public transport systems that constitute a genuine, practical, fast, reliable, and affordable alternative. The lack of public transport in areas of disperse and low demand due to financial reasons also remains a critical issue to be addressed. The CERRE report also finds that new mobility services (such as shared cars or free-floating e-scooters) provide unprecedented opportunities to reduce the disutility users would face from simply switching from the private car to public or active transport. Mobility as a Service (MaaS) enables users to change their routines, discover the variety of mobility services available and to combine former and new mobility services. Shared mobility providers may complement public transport, especially by supplying first and last mile solutions, and by serving areas where public transport is not financially viable. However, unless ridesharing replaces solo trips by car at a large scale, the impacts on congestion, pollution and CO2 emissions are likely to be neutral at best. Urban mobility public authorities cannot neglect the opportunities brought by new mobility services. Public authorities have to be more ambitious. They have to enlarge their spectrum of mobility services that will, in a financially sustainable way, ease user life and foster alternatives to solo car use. But to effectively deal with new mobility services authorities must develop new skills in the data and platforms areas. Platforms, information services and ticketing are crucial to increase the number of users of urban mobility services. Although digitalisation cannot be considered a magic wand, it plays a critical role in achieving this transition to new mobility services. For MaaS to develop, Mobility data must be gathered under the umbrella of Metropolitan Transport Authorities, who are the only trusted party able to do so. “Policies for the use of roads should discourage the use of individual cars and incentivise ride sharing. As long as individual cars can move freely and on the same roads and use services in the same conditions as shared vehicles, it is unlikely that MaaS and shared mobility will be successful. In addition, public authorities need to modernise and grasps the opportunities that digitisation and data offer for the transition to a truly sustainable mobility”, conclude the authors.