Emissions, performance, and design of UK passenger vehicles

N P D Martin,J D K Bishop,A M Boies

doi:10.1080/15568318.2016.1243282

N P D Martin, J D K Bishop + Show 1 more

Open Access

https://doi.org/10.1080/15568318.2016.1243282

Copy DOI

Abstract

ABSTRACTConsumer, legal, and technological factors influence the design, performance, and emissions of light-duty vehicles (LDVs). This work examines how design choices made by manufacturers for the UK market result in emissions and performance of vehicles throughout the past decade (2001–2011). LDV fuel consumption, CO2 emissions, and performance are compared across different combinations of air and fuel delivery system using vehicle performance metrics of power density and time to accelerate from rest to 100 km/h (62 mph, tz-62). Increased adoption of direct injection and turbocharging technologies helped reduce spark ignition (SI, gasoline vehicles) and compression ignition (CI, diesel vehicles) fuel consumption by 22% and 19%, respectively, over the decade. These improvements were largely achieved by increasing compression ratios in SI vehicles (3.6%), turbocharging CI vehicles, and engine downsizing by 5.7–6.5% across all technologies. Simultaneously, vehicle performance improved, through increased engine power density resulting in greater acceleration. Across the decade, tz-62 fell 9.4% and engine power density increased 17% for SI vehicles. For CI vehicles, tz-62 fell 18% while engine power density rose 28%. Greater fuel consumption reductions could have been achieved if vehicle acceleration was maintained at 2001 levels, applying drive train improvements to improved fuel economy and reduced CO2 emissions. Fuel consumption and CO2 emissions declined at faster rates once the European emissions standards were introduced with SI CO2 emissions improving by 3.4 g/km/year for 2001–2007 to 7.8 g/km/year thereafter. Similarly, CI LDVs declined by 2.0 g/km/year for 2001–2007 and 6.1 g/km/year after.

Highlights

High volume light-duty vehicle (LDV) manufacturers are subject to financial penalties if their fleet-average emissions ratings exceed limits defined by legislation
The percentage of spark ignition (SI) vehicles available to the market decreased from 74% to 50% across the decade as CI vehicle numbers simultaneously increased from 24% to 49%
The impact of light duty vehicle technology drivers and design trends on performance, fuel economy and CO2 emissions were investigated by analysis of national engineering data for the UK vehicle fleet (>99% of available vehicles) during the past decade (2001-2011)

Summary

Introduction

High volume light-duty vehicle (LDV) manufacturers are subject to financial penalties if their fleet-average emissions ratings exceed limits defined by legislation. These CO2 emissions targets are currently set at 130 g CO2/km by the European Union and will reduce to 95 g CO2/km from 2020 onwards (EC 2009). This study investigates how present legislation and other less well-defined influences have affected UK passenger vehicle designs with a focus on rates of technology adoption, vehicle performance and CO2 emissions. This allows the effectiveness of European LDV emissions standards to be determined and vehicle design trends to be assessed. The limited availability of detailed design data has historically hindered the analysis of UK LDV trends, where a particular absence of deductive statistical relations is noted

Methods

Results

Conclusion