Smart Charging and Anti-Idling Systems / by Yanjun Huang, Soheil Mohagheghi Fard, Milad Khazraee, Hong Wang, Amir Khajepour.

Format:

Book

Author/Creator:

Huang, Yanjun., Author.

Fard, Soheil Mohagheghi., Author.

Khazraee, Milad., Author.

Wang, Hong., Author.

Khajepour, Amir., Author.

Series:

Synthesis Lectures on Advances in Automotive Technology, 2576-8131

Language:

English

Subjects (All):

Electrical engineering.

Mechanical engineering.

Automotive engineering.

Transportation engineering.

Traffic engineering.

Electrical and Electronic Engineering.

Mechanical Engineering.

Automotive Engineering.

Transportation Technology and Traffic Engineering.

Local Subjects:

Electrical and Electronic Engineering.

Mechanical Engineering.

Automotive Engineering.

Transportation Technology and Traffic Engineering.

Physical Description:

1 online resource (VIII, 84 p.)

Edition:

1st ed. 2018.

Place of Publication:

Cham : Springer International Publishing : Imprint: Springer, 2018.

System Details:

Mode of access: World Wide Web.

Summary:

As public attention on energy conservation and emission reduction has increased in recent years, engine idling has become a growing concern due to its low efficiency and high emissions. Service vehicles equipped with auxiliary systems, such as refrigeration, air conditioning, PCs, and electronics, usually have to idle to power them. The number of service vehicles (e.g. public-school-tour buses, delivery-refrigerator trucks, police cars, ambulances, armed vehicles, firefighter vehicles) is increasing significantly with tremendous social development. Therefore, introducing new anti-idling solutions is inevitably vital for controlling energy unsustainability and poor air quality. There are a few books about the idling disadvantages and anti-idling solutions. Most of them are more concerned with different anti-idling technologies and their effects on the society rather than elaborating an anti-idling system design considering different applications and limitations. There is still much room to improve existing anti-idling technologies and products. In this book, we took a service vehicle, refrigerator truck, as an example to demonstrate the whole process of designing, optimizing, controlling, and developing a smart charging system for the anti-idling purpose. The proposed system cannot only electrify the auxiliary systems to achieve anti-idling, but also utilize the concepts of regenerative braking and optimal charging strategy to arrive at an optimum solution. Necessary tools, algorithms, and methods are illustrated and the benefits of the optimal anti-idling solution are evaluated.

Contents:

Introduction

Powertrain Modeling and Component Sizing for the Smart Charger

Driving and Service Cycle Estimation

Power Management Controller Design for the Smart Charger

Conclusions

References

Authors' Biographies.

Notes:

Includes bibliographical references and index.

ISBN:

9783031014970

3031014979