首页 | 本学科首页   官方微博 | 高级检索  
     


Evaluating a novel gasoline surrogate containing isopentane using a rapid compression machine and an engine
Authors:Sandro Gail  Roger F. Cracknell  Dáire Corrigan  Andrea Festa  Varun Shankar  Benoit Poulet  Guy Lovett  Rene D. Büttgen  Karl A. Heufer  Roberto Mariconti  Matteo Cucchi  Fabio Mortellaro
Affiliation:1. Shell Global Solutions GmbH, Hohe-Schaar Straße 36, D-21107 Hamburg, Germany;2. Shell Global Solutions (UK), Shell Centre, London SE17NA, United Kingdom;3. Ferrari S.p.A., Via Abetone inf. 4; 41053 Maranello, MO, Italy;4. Physico-Chemical Fundamentals of Combustion (PCFC), RWTH Aachen University, Schinkelstraße 8, D-52062 Aachen, Germany
Abstract:Simple surrogate formulations for gasoline are useful for modelling purposes and for comparing experimental results using a carefully designed fuel. Simple three-component surrogates based on primary reference fuels (PRF) and Toluene (TPRF) are frequently used to match the antiknock properties of actual gasoline fuels through the RON and MON. However, using PRF or TPRFs to test or to calibrate gasoline engines is still challenging, with the main difficulty being the capabilities of PRF fuels to match the physical properties of the road fuel such density, volatility (DVPE) and the distillation curve. To overcome such issues, an alternative to TPRF is presented in this work with a focus on premium fuel (RON98 EN228). This alternative consists of replacing some or all of isooctane by isopentane. In the event of total replacement, a three-component “THIP” (Toluene, Heptane, IsoPentane) surrogate fuel is produced. The physical and combustion properties of isopentane makes it easier to create surrogates that can match the DVPE, RON, MON and distillation characteristics of a real fuel. Furthermore, the use of isopentane allows the definition of a wider range of surrogate fuel compositions that can replicate the RON and MON of a given fuel. Surrogate formulations were developed at Shell Global Solutions that matched the RON, MON and selected physical properties of a reference premium gasoline (RPG). A Rapid Compression Machine (RCM) in PCFC was used to demonstrate that those surrogates can reproduce the essential autoignition characteristics of the selected RPG. Two mechanisms were used to predict RCM data and showed reasonable agreement, opening some perspective for further investigations. Finally, an engine test performed at Ferrari test facilities demonstrated that simple surrogates containing isopentane can be used to closely match the knock-limited combustion phasing of an RPG. In this paper, it is demonstrated such surrogates have advantages compared to TPRFs in being able to match the properties of a real fuel and that the surrogate approach is consistent with RCM data and engine results.
Keywords:
本文献已被 ScienceDirect 等数据库收录!
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号