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NEXCEL testing demonstrates potential 2g/km CO2 reduction

August 15, 2018



BP’s innovation business NEXCEL predicts CO2 reduction at a €/g cost significantly less than mild hybridisation 


Reading, 15th August 2018


Testing of the latest Nexcel active engine oil management system across three different engine types demonstrated the system's potential to reduce CO2 emissions by 2 g/km. The reduction is delivered by ensuring a precise oil-engine match, helping the oil to warm up more quickly and boosting the oil’s active components in-between oil changes.

Nexcel’s active engine oil management system is an easy to change unit containing engine oil, a filter and an electronic control unit. The plug and play oil cell is designed for flexible installation anywhere in a vehicle’s engine bay via a docking station. Nexcel is an automotive start-up that combines Castrol’s knowledge of lubricants technology with BP’s focus on growing businesses which support customers in reducing their emissions.


Nexcel provides an effective solution for engine designers aiming to reduce CO2 emissions in both hybrids and pure internal combustion vehicles. The anticipated cost for each gram of CO2 saved with Nexcel is around €42(1), similar to the cost per gram of CO2 for a micro hybrid (stop-start plus regenerative braking) and approximately half the cost per gram for one of the most popular new technology strategies, a mild hybrid system(2).


“Using data from the European Commission’s 2017 Impact Assessment of Upcoming CO2 Regulations,(2) we have established that Nexcel is one of the most affordable routes to CO2 reduction which will help passenger cars meet the Commission’s demanding 2021 European fleet average target of 95 grams of CO2 per kilometre,” states Nexcel business development director, Ben Russell.


Emissions improvements have been recorded across several popular engine types, including conventional 2.0 litre gasoline, downsized 2.0 litre gasoline with GDi, and 2.0 litre diesel. The most substantial improvement was seen on the downsized, turbocharged gasoline engine, an architecture that is predicted to be one of the most important as the industry moves to smaller, more highly-stressed spark-ignition engines with or without electrification.


Being able to plan for a precise oil-engine match throughout the life of an engine opens up new possibilities for engine designers to reduce CO2.  For instance by ensuring that an engine uses the same lubricant throughout its life, designers may be able to use smaller more efficient bearings and higher loads, without having to compromise how far they can go. With Nexcel an electronic handshake automatically confirms the correct oil and filter every time the oil is changed.


Engine warm-up is growing in importance. Even in the Worldwide Light Vehicle Test Procedure, a significant proportion of the measurement is conducted with the engine at less than optimum operating temperature, which means it is producing more CO2 than when up to temperature. Every litre of oil in an engines sump has a heat capacity equivalent to around 2 kg of aluminium or 4 kg of cast iron (3), so by removing oil to the cell when it isn’t needed, Nexcel can help engines reach their optimal temperature sooner.


A further area of opportunity is that the effectiveness of lubricants falls as they are used due to additive depletion. To ensure there are sufficient active additives at the end of increasingly long service intervals, oils must be specified with a higher additive content than is required through most of its life. This pushes up the oils’ viscosity and can therefore increase emissions.  The Nexcel system aims to change the rules by boosting the oils’ additive content in-between services, preserving its effectiveness.


Russell concludes that the combined result of these three areas of improvement means that Nexcel will be able to offer significant CO2 reduction at a price that is broadly equivalent to the adoption of electric power assisted steering (EPAS). “A few years ago, EPAS was considered a radical evolution of the proven system, yet today it is almost ubiquitous. With even more pressure now on emissions reduction and sustainability, we see the same trajectory for active oil management”.


How the Nexcel system works

Nexcel is a self-contained, sealed cell that includes the correct grade of oil and specification of filter. Designed for flexible installation anywhere in the engine bay via a docking station, it is managed by a dedicated electronic control unit that communicates with the vehicle via the standard databus. An electric pump controls the flow of oil between the engine sump and the remote cell. Changing a Nexcel oil cell takes around 90 seconds and can be accomplished from the top of the engine bay without any mess or special equipment.

Further Information

Read about Nexcel’s contribution to Hybrids:

You can follow NEXCEL’s development on LinkedIn, where further technical information is available.


  1. €42/g is Nexcel’s estimate for an initial high-volume application based on a combination of bill of materials and manufacturing costs. €21/g is Nexcel’s indicative target for a high-volume application with further economies achieved through increased levels of integration with the vehicle early in the design.

  2. The European Commission’s 2017 impact assessment of upcoming CO2 regulations is available here, with the data referred to on page 30.


  1. Liquid Specific Heat Capacity of Motor Lubricant Oils after Thermal Degradation, Journal of Engineering and Applied Sciences



Nevil Hall
+44 (0)1295 277050 (office)      
+44 (0)7711 861 662 (mobile)

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