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Technical Paper

Development of a High Performance Anti-Wear Additive Providing Protection Against Valve Seat Recession Combined with Octane Enhancement in Treated Fuel

2000-06-19
2000-01-2016
Response to lead phase out in European countries depends on a number of factors including refinery configuration and vehicle population. Vehicle populations differ widely in different EU member states, and in some countries engineering changes made during the 1970s and 1980s have left the year 2000 vehicle populations able to operate on unleaded gasoline with no problems. For various demographic reasons, in certain other countries, a substantial proportion of the vehicle population still requires lead or an alternative additive to provide protection against the well known problem of valve seat recession. Benefits can arise from the use of additives able to increase both octane quality and to provide protection from valve seat recession. A development programme was undertaken to produce an additive formulation which could combine octane enhancement with excellent protection from valve seat recession.
Technical Paper

Combining Fuel Borne Catalyst, Catalytic Wash Coat and Diesel Particulate Filter

2001-03-05
2001-01-0902
In view of increasing concern over diesel particulates and tightening legislation to control their emission, much work has been done to develop diesel particulate filters (DPFs) and systems to allow them to work reliably. Although a filter will effectively trap solid particles, any material in the vapour phase, such as unburned hydrocarbons, may pass through the filter and subsequently condense. The use of a catalytic wash coat, either on the DPF itself or on a separate substrate, has been proposed to oxidise these hydrocarbons and thus reduce the total material emitted. The use of fuel borne catalysts to aid the regeneration of trapped material within the DPF is also well documented. Such catalyst will also catalyse the oxidation of any hydrocarbons bound up within the particulate. The oxidation of such hydrocarbon occurs at a lower temperature than that of carbon itself, thus allowing lower temperature regeneration of the DPF.
Technical Paper

The Influence of Fuel Additives on the Cold Climate Operation of Diesel Engines

1992-02-01
920036
Wax formation in diesel fuel can seriously inhibit the liquid flow characteristics, block filters and reduce the cold operability of diesel vehicles. The cold flow properties of fuels are usually quantified using laboratory techniques. The paper describes the ways that fuel waxing can influence the performance of vehicles and how techniques are being developed to evaluate the benefit of cold flow improving additives. Researchers often turn to laboratory tests to improve research progress. The credibility of two new test techniques is discussed. Reductions in fuel ignition quality can seriously influence cold starting and emissions. Work carried out to evaluate the cold starting qualities of ethanol with two different ignition improvers is discussed.
Technical Paper

The Effect of DI Nozzle Fouling on Fuel Spray Characteristics

1992-10-01
922232
The atomisation characteristics of DI diesel engine fuel injection nozzles have been the subject of intensive study over the last decade. Much of this work has been related to clean, single hole nozzles spraying into quiescent air, at either ambient conditions or elevated pressures and temperatures. Experience shows that fuel injector nozzles may foul very rapidly in field service, and that this might have a significant effect on the performance of the engine particularly with regard to emissions. The build up of material on the injector nozzle can be controlled by the addition of suitable fuel additives. This paper describes test procedures developed to assess deposit build up and to indicate the efficacy of keep clean additives. The paper then goes on to describe high speed photographic techniques for studying the fuel spray characteristics of clean and fouled injectors in a firing engine.
Technical Paper

Deposit Control Additive Effects on CCD Formation Engine Performance and Emissions

1995-10-01
952444
Concerns over the effects of combustion chamber deposits (CCD) on engine performance coupled with increasing environmental pressures on vehicle exhaust emissions, have forced the original equipment manufacturers (OEMs) to call for control of fuel compositions to preclude or minimise deposit formation in the combustion chamber. However, this is currently not felt to be feasible, given the scarcity of data on the effect of CCD on emissions, and the lack of an industry standard measurement technique. This paper describes a two-year project which demonstrates the positive impact that a fully synthetic CCD control additive system has on engine performance and emissions. The same programme demonstrates that tailpipe HC, CO, and NOx all directionally increased after the deposit accumulation period, but only NOx decreased with the removal of CCD. Engine-out NOx emissions increase with heavy CCD weight.
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