@misc{b4d8eccdc9d645cfb297e8d0341de1f8,
title = "Simulated Real-World Energy Impacts of a Thermally Sensitive Powertrain Considering Viscous Losses and Enrichment (Presentation): NREL (National Renewable Energy Laboratory)",
abstract = "It is widely understood that cold-temperature engine operation negatively impacts vehicle fuel use due to a combination of increased friction (high-viscosity engine oil) and temporary enrichment (accelerated catalyst heating). However, relatively little effort has been dedicated to thoroughly quantifying these impacts across a large number of driving cycles and ambient conditions. This workleverages high-quality dynamometer data collected at various ambient conditions to develop a modeling framework for quantifying engine cold-start fuel penalties over a wide array of real-world usage profiles. Additionally, mitigation strategies including energy retention and exhaust heat recovery are explored with benefits quantified for each approach.",
keywords = "dynamometer testing, engine cold starts, powertrain modeling/simulation, real-world drive cycles, real-world fuel economy",
author = "Eric Wood and Jeffrey Gonder and Sean Lopp and Forrest Jehlik",
year = "2014",
language = "American English",
series = "Presented at the SAE 2014 Thermal Management Systems Symposium, 22-24 September 2014, Denver, Colorado",
type = "Other",
}