Affiliation:
1. Illinois Institute of Technology
Abstract
<div class="section abstract"><div class="htmlview paragraph">Adaptive Cycle Engines, where compression and expansion events do not follow a fixed sequence but rather take place depending on demand, are competitive against electric motors because of their higher power density, lower carbon footprint with current energy sources, and predicted ability to use any kind of renewable fuel. The advantage of Adaptive Cycle Engines is greater whenever the powerplant has at least two distinct operating modes: one for high output, and one for high energy economy. This paper compares the well-to-wheels CO<sub>2</sub> emissions and pre-tax costs when operating powerplants based on Adaptive Cycle Engines and on electric motors under several scenarios: passenger car, on-road heavy-duty vehicle, and light aircraft.</div></div>
Reference20 articles.
1. MIT Energy Institute Report 2019
2. Ruiz , F. 2019
3. Tour , O. 2017 https://contest.techbriefs.com/2010/entries/transportation/459
4. Meldolesi , R. and Badain , N. Scuderi Split Cycle Engine: Air Hybrid Vehicle Powertrain Simulation Study SAE Technical Paper 2012-01-1013 2012 https://doi.org/10.4271/2012-01-1013
5. Guzzella , L. , Onder , C. , Dönitz , C. , Voser , C. et al. The Pneumatic Hybridization Concept for Downsizing and Supercharging Gasoline Engines MTZ Worldwide 71 1 2010 38 44