Forrest Jehlik scite author profile

It is widely understood that cold ambient temperatures increase vehicle fuel consumption due to heat transfer losses, increased friction (increased viscosity lubricants), and enrichment strategies (accelerated catalyst heating). However, relatively little effort has been dedicated to thoroughly quantifying these impacts across a large set of real world drive cycle data and ambient conditions. This work leverages experimental dynamometer vehicle data collected under various drive cycles and ambient conditions to develop a simplified modeling framework for quantifying thermal effects on vehicle energy consumption. These models are applied over a wide array of real-world usage profiles and typical meteorological data to develop estimates of in-use fuel economy. The paper concludes with a discussion of how this integrated testing/modeling approach may be applied to quantify real-world, off-cycle fuel economy benefits of various technologies.

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Methodology and Analysis of Determining Plug-In Hybrid Engine Thermal State and Resulting Efficiency

Jehlik¹

2009

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Development of a Low-Emission, Dedicated Ethanol-Fuel Vehicle with Cold-Start Distillation System

Jehlik¹,

Jones²,

Shepherd³

et al. 1999

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Forrest Jehlik

Tahoe HEV Model Development in PSAT

Development of Variable Temperature Brake Specific Fuel Consumption Engine Maps

Simulated Real-World Energy Impacts of a Thermally Sensitive Powertrain Considering Viscous Losses and Enrichment

Methodology and Analysis of Determining Plug-In Hybrid Engine Thermal State and Resulting Efficiency

Development of a Low-Emission, Dedicated Ethanol-Fuel Vehicle with Cold-Start Distillation System

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