Product help Request sample

Ask a question

Product sample request

Please fill out the form below to receive a sample of this product

Please choose from the following boxes if you give Ricardo consent to contact you about:

Your information will be stored on our secure systems and will never be shared with 3rd parties. For full details on data security, please see our privacy notice.

This engine performance and emissions benchmarking study was carried out on a 2019MY Ford Fiesta ST with Dragon 1.5 litre gasoline engine; rated at 147 kW with 136 g/km CO2 claimed for this relatively high-performance vehicle.

The full report covers results and analysis from the vehicle emissions tests and engine dyno mapping at both hot engine conditions and warm-up (50°C coolant) conditions. As well as expert analysis, comparisons are made to the Ricardo database scatter to add perspective to the results.

Illustrated with maps, plots, and diagrams, it explains the key features of the engine and how they are deployed for high specific power output with Euro-6d emissions compliance. Interesting features of this innovative engine include:

  • Dual fuelling systems – GDI and PFI combined
  • Cylinder deactivation – claimed a first for a 3-cylinder engine
  • Wide Lambda 1 operation even at high power output, with integrated exhaust manifold and high temperature turbine
  • Inlet and exhaust VVT
  • Low friction measures include offset crank and 2-stage variable displacement oil pump
  • GPF

The Ricardo EconoMark approach to engine benchmark testing ensures representative engine performance and accurate, repeatable data from an engine dyno. The focus is on fuel economy/CO2, regulated exhaust emissions, and performance of the engines in their passenger car applications.

Relevant to:
  • Automotive
Topics:
  • Powertrain
Publication

Ford Fiesta ST Dragon 2019 Engine Benchmark Report

  • 130 page report + 300 pages of appendices including: data plots detailing vehicle tests, engine maps, injection and ignition sequences
  • Additional raw data pack of excel files including:
  • Vehicle emissions test data for 2xWLTC tests
  • Engine dyno mapping data for hot and warm-up operating conditions
  • Full-load power-curve data for engine and vehicle dyno tests
  • Valve-lift measurements
  • Sample download available
  • Report shared via a link to download (28Mb)
  • Please click Product Help to enquire about the price
  • Publication type: Report Year of publication: 2020
    Currency is determined by billing address. Find out more
    Out of stock Quantity:
    Price: -
    This product can be paid via invoice with a valid PO number. Find out more

    Product description

    This engine performance and emissions benchmarking study was carried out on a 2019MY Ford Fiesta ST with Dragon 1.5 litre gasoline engine; rated at 147 kW with 136 g/km CO2 claimed for this relatively high-performance vehicle.

    The full report covers results and analysis from the vehicle emissions tests and engine dyno mapping at both hot engine conditions and warm-up (50°C coolant) conditions. As well as expert analysis, comparisons are made to the Ricardo database scatter to add perspective to the results.

    Illustrated with maps, plots, and diagrams, it explains the key features of the engine and how they are deployed for high specific power output with Euro-6d emissions compliance. Interesting features of this innovative engine include:

    • Dual fuelling systems – GDI and PFI combined
    • Cylinder deactivation – claimed a first for a 3-cylinder engine
    • Wide Lambda 1 operation even at high power output, with integrated exhaust manifold and high temperature turbine
    • Inlet and exhaust VVT
    • Low friction measures include offset crank and 2-stage variable displacement oil pump
    • GPF

    The Ricardo EconoMark approach to engine benchmark testing ensures representative engine performance and accurate, repeatable data from an engine dyno. The focus is on fuel economy/CO2, regulated exhaust emissions, and performance of the engines in their passenger car applications.