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2017-04-04
Event
This session focuses on technologies such as advanced and partially mixed combustion, cooled EGR boosting, ignition and direct injection technologies, pressure boosting, intelligent combustion, thermal efficiency, fully variable valvetrains, and other new and developing technologies. Papers focused on waste heat recovery technologies should be submitted to HX102/103.
2017-04-04
Event
Separate sub-sessions cover powertrain control, calibration, and system-level optimization processes related to achieving stringent market fuel economy, emissions, performance, reliability, and quality demands. Topics include the control, calibration, and diagnostics of the engine, powertrain, and subsystems related to energy management in conventional and hybrid operation, considering the simultaneous optimization of hardware design parameters and control software calibration parameters.
2017-04-04
Event
Papers are invited on technology developments and the integration of these technologies into new emission control systems. Topics include the integration of various diesel particulate matter (PM) and diesel Nitrogen Oxide (NOx) reduction technologies plus analogous technologies for the growing population of direct injection gasoline engines. Novel developments in sensors and control systems will also be considered.
2017-04-04
Event
Papers on the following exhaust emissions control topics will be considered: System integration and durability, advances in catalyst substrates, advances in particulate filter substrates, advances in NOx reduction technology, and on-board measurement and control.
2017-04-04
Event
Papers cover exhaust aftertreatment system models, as well as their validation and application. Technologies encompassed include DOC, HC Trap, DPF, GPF, LNT, TWC, SCR, SCRF, ammonia oxidation catalysts, hybrid or combined catalysts, urea-water solution spray dynamics, and mixture non-uniformity. Modeling aspects range from fundamental, 3D models of individual components to system level simulation, optimization, variation, degradation, and control.
2016-11-17
Event
Papers in this session pertain to studies of exhaust emission control and the emission effects from fuels, engine controls, engine design, combuston quality, catalytic converters, diesel particulate filters, and other aftertreatment. The focus of the session is on reducing emissions and meeting international emission standards.
2016-11-17
Event
Papers in this session pertain to studies of exhaust emission control and the emission effects from fuels, engine controls, engine design, combuston quality, catalytic converters, diesel particulate filters, and other aftertreatment. The focus of the session is on reducing emissions and meeting international emission standards.
2016-11-16
Event
Papers in this session pertain to studies of exhaust emission control and the emission effects from fuels, engine controls, engine design, combuston quality, catalytic converters, diesel particulate filters, and other aftertreatment. The focus of the session is on reducing emissions and meeting international emission standards.
2016-11-16
Event
Papers in this session pertain to studies of exhaust emission control and the emission effects from fuels, engine controls, engine design, combuston quality, catalytic converters, diesel particulate filters, and other aftertreatment. The focus of the session is on reducing emissions and meeting international emission standards.
2016-11-16 ...
  • November 16-18, 2016 (8:30 a.m. - 4:30 p.m.) - Tysons, Virginia
Training / Education Classroom Seminars
On-board diagnosis of engine and transmission systems has been mandated by government regulation for light and medium vehicles since the 1996 model year. The regulations specify many of the detailed features that on-board diagnostics must exhibit. In addition, the penalties for not meeting the requirements or providing in-field remedies can be very expensive. This course is designed to provide a fundamental understanding of how and why OBD systems function and the technical features that a diagnostic should have in order to ensure compliant and successful implementation.
2016-11-08
Technical Paper
2016-32-0063
Marc Cyrill Besch, April Nicole Covington, Derek Johnson, Nathan Fowler, Robert Heltzel
The aim of this investigation was to improve understanding and quantify the impact of exhaust gas recirculation (EGR) as an emissions control measure onto cyclic variability of a small-bore, single-cylinder, diesel-fueled compression-ignition (CI) power generation unit. Of special interest were how cycle-to-cycle variations of the CI engine affect steady-state voltage deviations and frequency bandwidths. Furthermore, the study strived to elucidate the impact of EGR addition onto combustion parameters, as well as gaseous and particle phase emissions along with fuel consumption. The power generation unit was operated over five discrete steady-state test modes, representative of nominal 0, 25, 50, 75, and 100% engine load (i.e. 0-484kPa BMEP), by absorbing electrical power via a resistive load bank. The engine was equipped with a passive EGR system that directly connected the exhaust and intake runners through a 4mm diameter passage.
2016-11-08
Technical Paper
2016-32-0009
Yuki Takamura, Takahiro Shima, Hirotaka Suzuki, Keito Agui, Akira Iijima, Hideo Shoji
Homogeneous Charge Compression Ignition (HCCI) combustion has attracted widespread interest as a combustion system that offers the advantages of high efficiency and low exhaust emissions. However, it is difficult to control the ignition timing in an HCCI combustion system owing to the lack of a physical means of initiating ignition like the spark plug in a gasoline engine or fuel injection in a diesel engine. Moreover, because the mixture ignites simultaneously at multiple locations in the cylinder, it produces an enormous amount of heat in a short period of time, which causes greater engine noise, abnormal combustion and other problems in the high load region. The purpose of this study was to expand the region of stable HCCI engine operation by finding a solution to these issues of HCCI combustion.
2016-11-08
Technical Paper
2016-32-0012
Zhimin Lin, Kotaro Takeda, Yuki Yoshida, Akira Iijima, Hideo Shoji
Homogeneous Charge Compression Ignition (HCCI) combustion have attracted much attention as a high efficiency and clean combustion system. However, it is difficult to control the ignition timing because there are no a physical means of ignition. In addition, it is difficult to expand the operating range due to the occurrence of misfiring at low loads and the occurrence of rapid combustion (HCCI knocking) accompanied by in-cylinder pressure oscillations at high loads. Therefore, it is important to reduce the pressure oscillations of HCCI combustion knocking for expanding the operating range to the high load region. This study focused on the rapid combustion in HCCI. A primary reference fuel (0 RON) was used as the test fuel. The influence of external exhaust gas recirculation (cooled EGR) on HCCI knocking was investigated. HCCI combustion flame behavior with pressure oscillations were visualized by using a two-stroke engine that allowed visualization of the entire bore area.
2016-11-08
Journal Article
2016-32-0072
Fino Scholl, Paul Gerisch, Denis Neher, Maurice Kettner, Thorsten Langhorst, Thomas Koch, Markus Klaissle
One promising alternative for meeting stringent NOx limits while attaining high engine efficiency in lean-burn operation are NOx storage catalysts (NSC), an established technology in passenger car aftertreatment systems. For this reason, a NSC system for a stationary single-cylinder CHP gas engine with a rated electric power of 5.5 kW comprising series automotive parts was developed. Main aim of the work presented in this paper was maximising NOx conversion performance and determining the overall potential of NSC aftertreatment with regard to min-NOx operation. The experiments showed that both NOx storage and reduction are highly sensitive to exhaust gas temperature and purge time. While NOx adsorption rate peaks at a NSC inlet temperature of around 290 °C, higher temperatures are beneficial for a fast desorption during the regeneration phase. Combining a relatively large catalyst (1.9 l) with a small exhaust gas mass flow leads to a low space velocity inside the NSC.
2016-11-08
Journal Article
2016-32-0071
Koji Ueno, Hiroyuki Horimura, Akiko Iwasa, Yuji Kurasawa, Pascaline Tran, Ye Liu
Motorcycles are one of the major modes of transportation globally, and further expansion of motorcycle demand and usage is expected to continue because of population growth and individual income increase, in particular in emerging countries. At the same time, approach to critical environmental issues, such as escalation of air pollution, becomes more important challenge and this trend accelerates tightening of motorcycle emission regulation globally. In accordance with this, responding to social needs and minimizing the impact on air pollution while enhancing features of motorcycles, such as drive performance, convenience, and price attractiveness are our mission as a manufacture. Platinum group metals (PGMs) such as platinum, palladium and rhodium are commonly used for automotive and motorcycle catalysts. One of catalyst researchers’ dream is ultimately to develop catalyst without using such PGMs that are precious and costly resources.
2016-11-08
Journal Article
2016-32-0067
Akira Miyamoto, Kenji Inaba, Yukie Ishizawa, Manami Sato, Rei Komuro, Masashi Sato, Ryo Sato, Patrick Bonnaud, Ryuji Miura, Ai Suzuki, Naoto Miyamoto, Nozomu Hatakeyama, Masanori Hariyama
On the basis of extensive experimental works about heterogeneous catalysts, the authors have tried to develop a variety of software for the design of automotive catalysts such as ultra-accelerated quantum molecular dynamics (UA-QCMD) which is 10,000,000 times faster than the conventional first principles molecular dynamics(1-3), mesoscopic modeling software for supported catalysts(POCO2), and mesoscopic sintering simulator SINTA(4,5) to calculate sintering behavior of both precious metal such as Pt, Pd, Rh and support such as Al2O3, ZrO2, CeO2, or CeO2-ZrO2 We also have integrated these softwares to develop multiscale, multiphysics simulator for the design of automotive catalysts. The method was confirmed to be effective for a variety of important catalytic reactions in the automotive emission control.
2016-11-08
Journal Article
2016-32-0070
Toyofumi Tsuda, Kazuya Miura, Akio Hikasa, Keiji Hosoi, Fumikazu Kimata
Automotive catalyst has to have good durability, i.e. has to keep sufficient catalytic performance even after thermal degradation, therefore large amounts of PGMs such as Pt, Pd, and Rh, should be loaded on the catalyst substrate. Exhaust gas heat deteriorates catalyst due to sintering of the PGM particles and decrease of the active surface area. It is important to reduce PGM load, therefore many researchers have investigated to satisfy both PGM  load reduction and enough durability by using metal / support interactions, or controlling the nano-structure of metal particles. We found that Pt ions form platinum-hydrate cluster in hexahydroxyplatinate(IV) (Pt(OH)6・H2O) nitric acid solution, and the Pt-hydrate cluster size can be controlled by Pt and nitric acid concentration, and solution temperature.
2016-11-08
Journal Article
2016-32-0093
Denis Neher, Fino Scholl, Maurice Kettner, Danny Schwarz, Markus Klaissle, Blanca Giménez Olavarria
Combustion temperature represents the driving parameter for NOx emissions. Lean burn operation allows engines to reduce combustion temperature due to relatively high heat capacity of the excess air. Lean operating cogeneration engines, however, need additionally to retard ignition timing to meet NOx emission standards. The late combustion phasing leads to a further deviation from the ideal Otto cycle, causing losses in engine efficiency. When substituting a part of the excess air with exhaust gas, heat capacity increases. Combustion phasing can be advanced, resulting in a thermodynamically more favourable heat release. As a result, engine efficiency improves without increasing NOx emissions. In this work, the effect of replacing a part of excess air with exhaust gas was investigated first in a constant volume combustion chamber. It enabled to analyse the influence of the exhaust gas under steady initial conditions for several relative air-fuel ratios (λ = 1.3…1.7).
2016-10-25
Event
Papers cover exhaust aftertreatment system models, as well as their validation and application. Technologies encompassed include DOC, HC Trap, DPF, GPF, LNT, TWC, SCR, SCRF, ammonia oxidation catalysts, hybrid or combined catalysts, urea-water solution spray dynamics, and mixture non-uniformity. Modeling aspects range from fundamental, 3D models of individual components to system level simulation, optimization, variation, degradation, and control.
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