Since the last edition of this report in 2013, the demand on automakers has been relentless in terms of improving fuel economy and reducing emissions, thus driving increased sales of forced induction systems. The use of pressure charging techniques has therefore expanded significantly. Recent years have seen the ascendancy of the turbocharger and its use by almost every major global manufacturer.
The AVL International Commercial Powertrain Conference is the premier forum for truck, agricultural and construction equipment manufacturers to discuss powertrain technology challenges and solutions across their industries. The topics of the conference, which happens every two years, cover all five elements of a modern powertrain: engine, transmission, electric motor, battery and the electronic control which are used basically the same way in the quest for optimal efficiency and environmental compatibility. This event offers a unique opportunity for highly regarded professionals to address the synergy effects and distinctive characteristics of commercial vehicles, agricultural tractors and non-road vehicles, and industrial machinery. The conference held in 2013 focused on CO2 reduction, one of the most talked-about subjects in the mobility arena.
This technical paper collection contains 53 technical papers. Topics covered include engine exhaust aftertreatment and integration; hybrid vehicle integration and optimization; powertrain and drivetrain NVH; advanced transmission and driveline component design; diesel engine system design; fuel economy; alternative fuels; and advanced engine component design.
The 10 papers in this technical paper collection discuss high efficiency IC engines. Topics include: fuel reactivity controlled compression ignition (RCCI) combustion in light- and heavy-duty engines; fuel effects on reactivity controlled compression ignition (RCCI) combustion at low load; advantages of variable compression ratio in internal combustion engines; piston and valve deactivation for improved part load performances of internal combustion engines; and more.
The 24 papers in this technical paper collection focus on technologies such as advanced and partially mixed combustion, cooled EGR boosting, ignition and direct injection technologies, pressure boosting, intelligent combustion, thermal efficiency including waste heat recovery, fully variable valvetrains.
This technical paper collection focuses on technologies such as advanced and partially mixed combustion, cooled EGR boosting, ignition and direct injection technologies, pressure boosting, intelligent combustion, thermal efficiency, fully variable valvetrains, and other new and developing technologies.
This technical paper collection explores total vehicle and powertrain technologies for on and off-road commercial vehicles aimed at reduction of CO2 emissions through design, analysis, and testing techniques. The topics may include energy analysis/management/optimization, current and proposed emission legislation, certification techniques, powertrain integration, weight reduction, idle reduction, and friction/parasitic reduction.
Increased concern with global warming and energy security renewed interest in hybrid vehicles. This report explores the basis of hybrid components and system engineering, and then delves into the design constraints, challenges and opportunities. Hybrid Powered Vehicles concludes with an expert's outlook on developments in the technology, its applications and potential markets.
The current rapid rate of innovation in the automotive industry is primarily fueled by the need to improve fuel economy and reduce emissions, increase use of electronics for infotainment and safety, and global development. This full-color book delves into these megatrends to arm decision-makers with information that will help them remain competitive in the North American automotive market for the next 20 years. The first third of the book covers improvements to existing technologies-engines, transmissions, bodies and materials-for better fuel economy. The second portion of the book delves into alternate fuel sources for vehicles and associated technologies. The focus of the final third of the book is the emergence of the smart car. Readers will come away with a renewed understanding of the complicated set of trends that will affect the automotive industry for the next 20 years, and how to effectively address them.
This book sheds light on three essential questions: 1. What is the likely supply of gasoline and diesel from oil worldwide to power light vehicles and trucks through 2030-2035? 2. Could any other fuel economically replace gasoline? Will different parts of the world answer that question differently? 3. How will the answers to these questions affect what we engineer, make, and drive in 2030–2035? As difficult as it is to predict timing of these events, the book presents reasonable assumptions and alternative scenarios. Since a switch to alternative technologies will require substantial investment, it is critical to have a sense of when. Despite the global reach of the automotive industry, it is unlikely that a solution for one region will fit all. A more reasonable goal is a set of projected ‘ecosystems’ using differing amounts of oil, electricity, or alternative fuels. From this, automotive managers and leaders can get a sense of how to make business decisions for the future.
The automotive transmission plays a vital role in the vehicle powertrain, yet in an optimum operation environment it is invisible to the customer. This report examines the technological innovations in transmission design that contribute to important overall vehicle characteristics such as fuel economy, vehicle performance, quality and reliability. This book is a reference providing background and solid supportive data for the manager and engineer with responsibility for directing the application of the transmission in vehicle design concepts. Historical information is briefly reviewed as a basis for the state of development of future transmissions. Topics Covered: Transmission Types Gearing the Transmission Transmission Controls Performance Attributes Transmission Efficiency and Internal Component Power Losses Harnessing Noise, Vibration, and Harshness (NVH) and more