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2016-10-27 ...
  • October 27-28, 2016 (8:30 a.m. - 4:30 p.m.) - Baltimore, Maryland
Training / Education Classroom Seminars
Improving vehicular fuel efficiency is of paramount importance to the global economy. Governmental regulations, climate change and associated health concerns, as well as the drive towards energy independence, have created a technical need to achieve greater fuel efficiency. While vehicle manufacturers are focusing efforts on improved combustion strategies, smaller displacement engines, weight reduction, low friction surfaces, etc., the research involved in developing fuel efficient engine oils has been less publicized.
2016-10-24
Event
The industry continues to work on understanding the interaction of lubricating fluids with engine hardware in order to improve vehicle efficiency, durability, and performance. The Engine Lubricants Session presents a variety of papers dealing with advances in engine oils and their relationship to improved hardware performance.
2016-10-24
Event
This session reviews advancements in heavy-duty engine oil technology and test methodology, focusing on achieving future emissions, durability and fuel efficiency expectations both in North America and Europe.
2016-10-24
Event
In the industry there is continuing work on understanding the interaction of lubricating fluids with driveline hardware and on improving the fluids used in these applications. In this session are presented a variety of papers dealing with different applications where the interaction of driveline fluids with equipment is important.
2016-06-14
Event
2016-05-04
Standard
AMS3085A
This specification covers a neopentyl polyol ester fluid (see 8.2) with AS5780 HPC or MIL-PRF-23699 HTS Class performance.
2016-04-13
Event
This technical session discusses advances in fundamental phenomena related to the impact of lubricant composition and heavy duty diesel engine operating parameters on significant environmental performance criteria, such as chemistry/size/morphology of exhaust soot, and fuel dilution. Furthermore, developments in understanding field derived lubricant borne DPF ash composition are evaluated and discussed in detail.
2016-04-13
Event
In the industry there is continuing work on understanding the interaction of lubricating fluids with driveline hardware and on improving the fluids used in these applications. In this session are presented a variety of papers dealing with different applications where the interaction of driveline fluids with equipment is important.
2016-04-12
Event
The industry continues to work on understanding the interaction of lubricating fluids with engine hardware in order to improve vehicle efficiency, durability, and performance. The Engine Lubricants Session presents a variety of papers dealing with advances in engine oils and their relationship to improved hardware performance.
2016-04-12
Event
The industry continues to work on understanding the interaction of lubricating fluids with engine hardware in order to improve vehicle efficiency, durability, and performance. The Engine Lubricants Session presents a variety of papers dealing with advances in engine oils and their relationship to improved hardware performance.
2016-04-05
Technical Paper
2016-01-0899
Takashi Hoshino, Farrukh Qureshi, Nicholas Virostko, Elizabeth Schiferl, Ananda Gajanayake, Motoji Hiroki, Tomoya Higuchi, Keita Ishizaki
The growing need for improved fuel economy is a global challenge due to continuously tightening environmental regulations targeting lower CO2 emission levels via reduced fuel consumption in vehicles. In order to reach these fuel efficiency targets, it necessitates improvements in hardware by applying advanced technologies in design, materials and surface treatments etc., as well as matching lubricant formulations with appropriate chemistry in. Axle lubricants have a significant impact on fuel economy. Importantly, they can be tailored to deliver maximum operation efficiency over either specific or wide ranges of operating conditions. The proper lubricant technology with well-balanced chemistries can simultaneously realize both fuel economy and hardware protection, which are commonly known to be having a trade-off relationship.
2016-04-05
Journal Article
2016-01-1081
Jonathan Harrison, Rodrigo Aihara, Fabian Eisele
Abstract Engine and transmission oil systems are commonly pressurized by gerotor style pumps, due to their simplistic design and low cost. Gerotor pumps are designed with certain tolerances of the gears and housing, thus creating a tradeoff of lower cost with larger tolerances and higher cost with smaller tolerances. By building a detailed gerotor pump model with a 1D hydraulic flow network, engineers can evaluate pump performance with these tolerances as input and compare to find the optimal design. This paper showcases the ease of building a gerotor model in 1D by using an automated process extracting the key model inputs directly from the pump CAD file. The gerotor pump performance is predicted including flow rate, total power loss, volumetric efficiency, and total efficiency vs. pump speed, pressure rise, clearance tolerances, and temperature, and compared with experiment.
2016-04-05
Technical Paper
2016-01-1132
Eduardo Mondragon-Parra, Gregory Ambrose
Abstract The required Fuel Economy improvement to meet increasing CAFE standards and the global trend to reduce CO2 emissions has prompted automakers to look at new technologies and optimize current technologies. One area of focus is the reduction of mechanical energy losses in driveline systems, which translate to less fuel consumption. Even though the driveline and chassis components account for only 2% (approximately) of the total mechanical losses in passenger vehicles, automakers have shown interest in maximizing the mechanical efficiency of driveline systems. A key component of any driveline system is the Halfshaft (HS), consisting of two Constant Velocity Joints (CVJ’s). The efficiency of CVJ’s is dependent on the joint architecture, angle of operation, transmitted torque, rotational speed and the grease selected for lubrication. Premium Tripots have the highest mechanical efficiency among CVJ’s. Ball-type joints tend to have lower efficiency.
2016-04-05
Technical Paper
2016-01-1045
Paul J. Shayler, Li Cheng, Qile Li, Emad Wahab
Abstract The oil distribution system of an automotive light duty engine typically has an oil pump mechanically driven through the front-endancillaries-drive or directly off the crankshaft. Delivery pressure is regulated by a relief valve to provide an oil gallery pressure of typically 3 to 4 bar absolute at fully-warm engine running conditions. Electrification of the oil pump drive is one way to decouple pump delivery from engine speed, but this does not alter the flow distribution between parts of the engine requiring lubrication. Here, the behaviour and benefits of a system with an electrically driven, fixed displacement pump and a distributor providing control over flow to crankshaft main bearings and big end bearings is examined. The aim has been to demonstrate that by controlling flow to these bearings, without changing flow to other parts of the engine, significant reductions in engine friction can be achieved.
2016-04-05
Journal Article
2016-01-1048
Zachary Westerfield, Yang Liu, Dallwoo Kim, Tian Tian
Abstract The oil control ring (OCR) controls the supply of lubricating oil to the top two rings of the piston ring pack and has a significant contribution to friction of the system. This study investigates the two most prevalent types of OCR in the automotive market: the twin land oil control ring (TLOCR) and three piece oil control ring (TPOCR). First, the basis for TLOCR friction on varying liner roughness is established. Then the effect of changing the land width and spring tension on different liner surfaces for the TLOCR is investigated, and distinct trends are identified. A comparison is then done between the TLOCR and TPOCR on different liner surfaces. Results showed the TPOCR displayed different patterns of friction compared the TLOCR in certain cases.
2016-04-05
Technical Paper
2016-01-1025
Daniela Cempirkova, Rostislav Hadas, Lukáš Matějovský, Rolf Sauerstein, Matthias Ruh
Abstract As emission regulations tighten across various regions of the world there is a growing trend in the use of alternative fuels such as Ethanol being blended with gasoline. A notable case of Ethanol usage is found in South America with the widespread use of E100, which has no gasoline content and can often contain up to 10% water. Engine oil contamination by fuel is of major concern and under certain conditions can have negative effects on the durability of turbocharger components which come into contact with contaminated oil, particularly sliding bearings, but also compressor stage through crankcase ventilation system fed gas. The manner in which this effect takes hold can cause a decrease in the lubrication properties and increase in corrosiveness of the engine oil.
2016-04-05
Technical Paper
2016-01-0999
Yuesen Wang, Xingyu Liang, Ge-Qun Shu, lihui Dong, Hanzhengnan Yu, Yajun Wang, Zhijun Li
Abstract In this paper, the influence of sulfur and ash fraction of lubricating oil on particle emissions was investigated via experimental works. Especially, we focus on the characterizations like size distribution, morphology and element composition in diesel particles. All of the research was done on a two-cylinder diesel engine under different load conditions. Five kinds of lubricating oils with different levels of sulfur and ash fraction were used in this study, among which a kind of 5W-30 (ACEA, C1) oil was used as baseline oil. Diesel primary particles were collected by thermophoretic system, and analyzed by transmission electron microscopy and energy dispersive X-ray spectrum technique, respectively. Conclusions drawn from the experiments indicate that the sulfur and ash change the primary particle emissions directly.
2016-04-05
Technical Paper
2016-01-0247
Jiu Xu, Predrag Hrnjak
Abstract Automotive air conditioning compressor produces an annular-mist flow consisting of gas-phase refrigerant flow with oil film and oil droplets. This paper reports a method to calculate the oil retention and oil circulation ratio based on oil film thickness, wave speed, oil droplet size, oil droplet speed, and mass flow rate. Oil flow parameters are measured by high-speed camera capture and video processing in a non-invasive way. The estimated oil retention and oil circulation ratio results are compared quantitatively with the measurements from system experiments under different compressor outlet gas superficial velocity. The agreement between video result and sampling measurement shows that this method can be applied in other annular-mist flow analysis. It is also shown that most of the oil exists in film from the mass point of view while oil droplets contributes more to the oil mass flow rate because they travel in a much higher speed.
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