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Viewing 1 to 19 of 19
Anytime
Training / Education On Demand e-Seminar
An efficient, durable, and quiet running drivetrain is as essential to customer satisfaction as styling and interior creature comforts. In this e-Seminar, you will be exposed to various methods that can be used to accomplish this goal. Designed to help you visualize both individual components and the entire drivetrain system - without reference to complicated equations - this e-seminar focuses on the terms, functions, nomenclature, operating characteristics and effect on vehicle performance for each of the drivetrain components.
Anytime
Training / Education On Demand Web Seminar RePlay
Lean burn engines (diesel and GDI) boast higher fuel economy and cleaner emissions than conventionally tuned engines while producing equivalent power. They employ higher combustion chamber compression ratios, significant air intake swirl and precise lean-metered direct fuel injection. The downfall of lean-burn technology, however, is increased exhaust NOx emissions (due to higher heat and cylinder pressure) and a somewhat narrower RPM power-band (due to slower burn rates of lean mixtures). Removal of NOx from exhausts is a critical need for emission standards and ambient ozone requirements.
Anytime
Training / Education On Demand Web Seminar RePlay
This web seminar provides an in-depth overview of diesel engine noise including combustion and mechanical noise sources. In addition, the instructor will discuss a system approach to automotive integration including combining sub-systems and components to achieve overall vehicle noise and vibration goals.
Anytime
Training / Education On Demand e-Seminar
As diesel engines become more popular, a fundamental knowledge of diesel technology is critical for anyone involved in the diesel engine support industry. The SAE Diesel Engine Technology e-Seminar, featuring Instructor Magdi Khair, will explain the fundamental technology of diesel engines, starting with a short but thorough introduction of the diesel combustion cycle, and continuing with aspects of engine design, emission control design, and more. An overview of developing technologies for the future with a comprehensive section on exhaust aftertreatment is also included.
Anytime
Training / Education On Demand e-Seminar
This e-seminar provides an introduction to the fundamental concepts and evolution of passenger car and light truck 4x4/all- wheel drive (AWD) systems including the nomenclature used to describe these systems. Basic power transfer unit and transfer case design parameters, component application to system function, the future of AWD systems, and emerging technologies that may enable future systems are covered. Based on the popular classroom seminar, the four and a half hour course is divided into eight modules accompanied by a handbook.
Anytime
Training / Education On Demand Web Seminar RePlay
This four session course will explore the main elements of the catalytic converter: the catalyst, the honeycomb, and the housing. Session One will cover catalyst fundamentals to equip participants with the basic concepts, important design parameters and main elements of the catalyst, the washcoat and the unitary support. The second session will add discussion on catalyst durability and the effects of in-use on the maintenance of catalyst performance. The third and fourth sessions will explore the ceramic honeycomb as an integral part of emissions control device.
Anytime
Training / Education On Demand e-Seminar
In this e-seminar, Dr. William Mark McVea details the transmission's primary functions - to provide drivability characteristics to the vehicle and adaptive connectivity between the engine and the remainder of the fixed function driveline. The discussion then focuses on the latest transmission systems designed to achieve the most efficient engine operation. Current designs, the components and sub-systems used, their functional modes, how they operate, and the inter-relationships are examined.
Anytime
Training / Education On Demand Web Seminar RePlay
Vehicle functional requirements, diesel emission regulations, and subsystem thermal limits all have a direct impact on the design of a powertrain cooling airflow system. Severe duty cycles, minimal ram air, fouling, and sometimes unconventional package layouts present unique challenges to the designer. This course introduces many airflow integration issues and vehicle-level trade-offs that effect system performance and drive the design. The goal of this six-session web seminar is to introduce engineers and managers to the basic principles of diesel cooling airflow systems for commercial and off-road vehicles.
Anytime
Training / Education On Demand Web Seminar RePlay
Although hybrid powertrains have been on the market for little more than a decade, hybridization has quickly become one of the most successful alternative powertrains available today. Some OEMs estimate that up to 80% of their light-duty vehicles will require some level of hybridization to meet upcoming CAFE regulations in the United States. Additional market drivers, such as California's greenhouse gas legislation (now adopted or in process in 20 US states and two Canadian provinces) and a possible global agreement on greenhouse gas production at the end of 2009 may help to accelerate the process.
Anytime
Training / Education On Demand Web Seminar RePlay
Driven by the need for lower emissions, better fuel economy and improved drive quality, optimized powertrain calibrations are required for the many different vehicle configurations on today's roadways. While powertrain components such as the internal combustion engine, transmission, and hybrid electric powertrain are somewhat familiar to the automotive industry, the control theory, calibrations and system interactions between these components are a relatively unfamiliar aspect.
Anytime
Training / Education On Demand Ford Online Course
Powertrain as-installed subsystems have a common fundamental function to perform in harmony, enabling the engine to power the vehicle and/or accessories. There is a need to avoid issues such as idle roughness and to realize these are system interaction issues. For example, modal alignment affects idle roughness, and improving idle roughness can affect fuel economy. This 8-hour Ford online course describes the function and major interfaces of powertrain as-installed driveline subsystems. It also discusses Design Verification System (DVS) metrics/performance requirements for each subsystem and how each subsystem affects other subsystems.
Anytime
Training / Education On Demand Ford Online Course
Powertrain as-installed subsystems have a common fundamental function to perform in harmony, enabling the engine to power the vehicle and/or accessories. There is a need to avoid issues such as idle roughness and to realize these are system interaction issues. For example, modal alignment affects idle roughness, and improving idle roughness can affect fuel economy. This 12-hour Ford online course discusses hardware design, function, and major interfaces of powertrain as-installed stationary subsystems.
Anytime
Training / Education On Demand Ford Online Course
The Ford Powertrain Controls (PTC) online course introduces the critical role the powertrain controls system plays in providing excellent vehicle performance, fuel economy, driveability, and emissions. The course describes the powertrain controls system components, including sensors and actuators. The information is presented from a functional, interface diagram, and p-diagram perspective, to enable reliable and robust powertrain operation. In addition, the course emphasizes powertrain controls interactions with internal and external interfaces.
Anytime
Training / Education On Demand Ford Online Course
All Powertrain Product Development engineers must know how their area of subsystem responsibility could affect vehicle Driveability. This 3-hour Ford online course will provide knowledge of Driveability fundamentals. With this knowledge, you can better determine actions to improve the customer's perception of Driveability.
Anytime
Training / Education On Demand Ford Online Course
In addition to NVH, Driveability, and Shift Quality, Performance Feel is among the four Powertrain attributes that directly influence customer satisfaction. It is defined in terms of the availability of power to the end customer and is the customer perception of performance that includes the effects of vehicle acceleration, accelerator control characteristics, shift character, and sound quality. This 3.5-hour Ford online course is intended to increase the awareness of vehicle Performance Feel issues, target setting process, and the interactions and controls that affect Performance Feel.
Anytime
Training / Education On Demand Web Seminar RePlay
Electric drives are found in hybrid, plug-in hybrid, and hydrogen fuel cell vehicles, as well as battery electric vehicles. More than two million hybrid vehicles worldwide utilize electric drive components, and battery technology has matured enough to enable major manufacturers to develop light-duty and commercial electric vehicles for mass production and sale beginning in 2010-2012. It is also likely that many conventional vehicles will incorporate some form of idle-stop or stop-start system comprised of a low-output electric drive, as an integral part of efforts to meet U.S. CAFE fuel economy standards and EU CO2 emission requirements.
Anytime
Training / Education On Demand e-Seminar
The engine control module (ECM, or on-board computer) is the tool used to control the fuel injection rate, fuel injection timing, ignition timing, rate of exhaust gas recirculation (EGR), and other functions. The task of "programming" the ECM is much easier for a race engine than for a production engine because the calibration engineer does not need to be concerned about emissions: EGR, keeping the exhaust catalyst "happy", etc. In this e-Seminar, Professor Ron Matthews provides a practical introduction to ECMs, including the uses for the various sensors.
Anytime
Training / Education On Demand e-Seminar
In this e-seminar, Dr. William Mark McVea covers the most relevant topics related to internal combustion engines - ranging from the chemistry of combustion to the kinematics of modern internal components. You will gain a practical, thorough approach to the basics of most common designs of internal combustion engines as they apply to the gaseous cycles, thermodynamics and heat transfer to the major components, and the design theories that embody these concepts.
Anytime
Training / Education On Demand Web Seminar RePlay
Turbocharging is already a key part of heavy duty diesel engine technology. However, the need to meet emissions regulations is rapidly driving the use of turbo diesel and turbo gasoline engines for passenger vehicles. Turbocharged diesel engines improve the fuel economy of baseline gasoline engine powered passenger vehicles by 30-50%. Turbocharging is critical for diesel engine performance and for emissions control through a well designed exhaust gas recirculation (EGR) system. In gasoline engines, turbocharging enables downsizing which improves fuel economy by 5-20%.
Viewing 1 to 19 of 19