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Fuel economy (FE) and greenhouse gas (GHG) emissions measured via chassis testing under laboratory conditions were never intended to represent the wide range of real-world driving conditions that are experienced during a vehicle's lifetime. Comprehensive real-world information is needed to better assess US FE label adjustments, determine off-cycle credits for FE standards, and forecast real-world driving behavior, fuel consumption, and CO2 emissions. This paper explores a cost effective method to collect in-use fuel consumption data using the on-board diagnostics (OBD) data stream in light-duty vehicles (LDVs). The accuracy of fuel consumption calculated from the OBD data was analyzed in two ways. First, fuel rates calculated from standard OBD Parameter IDs (PIDs) were compared with fuel rate estimates based on enhanced PID (OEM fuel injector fuel rate) data in two different vehicles.

The cost of meeting standards for conventional pollutant emissions is a perennial bone of contention in arguments over vehicle emission regulations. The public health benefits of the most stringent standards have been repeatedly and conclusively demonstrated, and the control technologies are readily available. Nevertheless, countries with the largest vehicle markets worldwide differ greatly in the rates at which they are willing to adopt the most stringent emission standards-and some of those whose populations would benefit most lag furthest behind the best achievable standards. Among the reasons often given for delaying the implementation of stricter standards is the extra cost added to the vehicle by the emission control system. As part of a two series paper, this paper addresses the cost of diesel light-duty emission control technology by regulatory level, from early stages to upcoming levels, and presents a comparison with gasoline emission control technologies.

The cost of meeting standards for conventional pollutant emissions is a perennial bone of contention in arguments over vehicle emission regulations. The public health benefits of the most stringent standards have been repeatedly and conclusively demonstrated, and the control technologies are readily available. Nevertheless, countries with the largest vehicle markets worldwide differ greatly in the rates at which they are willing to adopt the most stringent emission standards-and some of those whose populations would benefit most lag furthest behind. Among the reasons often given for delaying the implementation of stricter standards is the extra cost added to the vehicle by the emission control system. This two-part series paper assesses separately the cost of emission control technologies for gasoline and diesel light duty vehicles. In part one, the paper addresses the cost of gasoline light-duty emission control technology by regulatory level, from early stages to upcoming levels.

Conventional hybrids have been marketed in the US for over a decade, with very high quality scores and high consumer satisfaction. However, their cost is still too high for mass market acceptance and their sales continue to be almost entirely to early adopters. This presentation will discuss mainstream consumer discounting of future fuel savings and how much they might be willing to pay, then focus on the potential for future hybrid efficiency improvements, synergies with other technologies, and cost reduction. The future cost reduction and efficiency benefits of the input powersplit and the P2 (parallel twin-clutch) hybrid systems are compared and projections offered through 2030. Presenter John German, International Council On Clean Transport

Hybrid Powered Vehicles, 2nd Edition builds on the original edition’s exploration of hybrid components, system engineering, design constraints, challenges, and opportunities of hybrid vehicles. Since the first edition was published in 2003, hybrid vehicles have seen major technical developments and have gained significant market share. This book provides the reader with a thorough yet accessible understanding of the latest hybrid technology developments, along with keen insight into the market forces shaping the technology and a look at what lies ahead. Author John German reviews the development history of hybrid vehicles and the current state of hybrid technology, including battery types and chemistries. He also highlights the cycles of fuel availability, fuel economy, and concern for environmental issues, and profiles government efforts to spur development of more efficient vehicles.

A large database of second-by-second emissions and engine operating parameters has been gathered on 1992-1994 model year vehicles as part of the FTP Revision Study. The results provide insight about the impact various engine operating parameters have on engine-out emissions and catalyst conversion efficiency of modern, fuel-injected vehicles. The discussion consists primarily of observations made directly from the data, along with some background information to facilitate understanding by people without detailed technical backgrounds. Air/fuel ratio was the dominant influence on engine-out CO and NOx emissions, as well as HC and CO catalyst conversion efficiency. Brake specific engine-out HC emissions were influenced primarily by the block temperature and by deceleration. NOx catalyst conversion efficiency was influenced both by the air/fuel ratio and by micro-transient fuel control.