SKYACTIV-X Engine Technology

SKYACTIV-X Engine Technology

Mazda announces UK price and specification of Skyactiv-X powered All-New Mazda3

  • Arriving in the UK in October, the Skyactiv-X powered All-New Mazda3 hatch will start from £23,555.
  • Offered with Skyactiv-X and Skyactiv-D engines, the All-New Mazda3 saloon also arrives this autumn.
  • Full All-New Mazda3 range now expanded to 40 models across saloon and hatchback body styles.

Mazda has announced UK specification and pricing for the much anticipated Skyactiv-X version of the All-New Mazda3. Arriving in October, Mazda3s fitted with this ground-breaking engine will start from £23,555 with combined economy of up to 52.3mpg, while at the same time the stylish All-New Mazda3 saloon will make its UK debut powered by the 180ps Skyactiv-X engine and the 116ps Skyactiv-D diesel engine.

Featuring Mazda’s unique Spark Controlled Compression Ignition (SPCCI) technology, Skyactiv-X is the world’s first production petrol engine to exploit the benefits of compression ignition. Providing drivers with the free-revving performance of a petrol engine with the superior response of a diesel, the 2.0-litre four-cylinder 180ps Skyactiv-X engine features the highest compression ratio for a production petrol engine in the world, while its lean burn capabilities ensure outstanding fuel economy and low emissions.

The entry point to the Skyactiv-X line up, the £23,555 manual All-New Mazda3 Sport hatch emits 100g/km, while the identically priced Sport saloon emits just 96g/km. Across both body styles the Skyactiv-X powered Mazda3 is offered in Sport, Sport Lux, GT Sport and GT Sport Tech trim levels, with a choice of automatic or manual transmission available on all models.

Additionally, for the first time since the Mazda 323 AWD, Mazda is offering UK drivers a four-wheel drive car in the family hatch segment. Exclusively matched to the high-grade GT Sport Tech trim and hatchback body, this Mazda3 combines the cutting-edge efficiency of the Skyactiv-X engine with the security and dynamic excellence of Mazda’s latest i-Activ all-wheel drive system.

Like the rest of the range, Skyactiv-X hatch and saloon models are specified with a level of standard equipment never seen before on a Mazda in this sector: the All-New Mazda3 features high-end technology such as a windscreen projecting colour head-up display with Traffic Sign Recognition, Mazda Radar Cruise Control and LED headlights across the range. Every model in the line-up also features navigation, Apple CarPlay/Android Auto and an advanced eight speaker audio system.

Even the Sport trim entry point to the Skyactiv-X range has a cabin enhanced with chrome detailing, a frameless rear view mirror and rear privacy glass, while Sport Lux models feature a reversing camera, smart keyless entry and heated front seats. GT Sport sees the introduction of black leather seats with power adjustment, a heated steering wheel and Bose audio, while the range-topping GT Sport Tech features a suite of additional active safety equipment, including a 360o camera and Driver Monitoring System with interior camera.

Exclusive to cars powered by the Skyactiv-X engine, GT Sport and GT Sport hatchbacks can be specified with £200 Burgundy leather, while the saloon can be equipped identically priced Stone leather.

Inside, the stylish cabin environment takes a minimalist approach with every aspect of the cockpit laid out in perfect horizontal symmetry with the driver to deliver both ergonomic simplicity and beautiful design.

Mazda’s focus on Japanese mastery inspired craftsmanship is evident in both high-class materials found throughout the interior and the impressive build quality. All models feature a seven-inch colour TFT driver instrument display, while the latest version of the Mazda Connect infotainment system features a larger 8.8-inch central display, improved navigation and a revised multimedia commander control dial, to name just a few of the enhancements.

Like the Skyactiv-G petrol engine, Mazda’s Skyactiv-X engine is matched to the Mazda M Hybrid 24V mild-hybrid system that recycles recovered kinetic energy. A belt-driven integrated starter generator (ISG) converts the energy in the 600kJ lithium-ion battery, while the DC-DC converter supplies it to the cars electrical equipment.

Externally, Sport Lux, GT Sport and GT Sport Tech Skyactiv-X powered cars are marked out by bright 18-inch alloy wheels on the saloon and metallic black alloys on the hatchback, while the keen eyed will spot the wider exhaust tailpipe and Skyactiv-X tailgate badge.

A stand out compact premium small saloon, the All-New Mazda3 saloon shares just its bonnet and windscreen with the hatchback, ensuring that it delivers a uniquely sophisticated and executive look distinct from the hatchback. Sharing an identical wheelbase, the saloon is 200mm longer, while the 444-litre boot ensures this stylish saloon delivers impressive levels of practicality.

Commenting on the arrival of the Skyactiv-X engine, Mazda UK Managing Director, Jeremy Thomson said: “I’m very excited about the arrival of the Skyactiv-X engine; this is another example of Mazda’s convention defying powertrain innovation. Offering our customers a truly unique blend of fuel economy, low emissions and performance from a petrol engine, Skyactiv-X adds a unique selling point to the All-New Mazda3, a car that is already winning over our customers with its quality, style and driver appeal”.

Adding, “it’s also great that the saloon is arriving in UK dealerships this Autumn, as it’s a stylish and distinctive compact executive saloon that will appeal to both fleet and private customers”.

Fuel economy and CO2 figures announced for revolutionary Mazda Skyactiv-X engine

  • The world’s first commercial petrol engine combining spark and compression ignition.
  • Skyactiv-X produces180ps and 224Nm, with economy/CO2 from 52.3mpg Combined and 96g/km*.
  • The All-New Mazda3 with Skyactiv-X will go on sale in the UK later this year.

Making its debut in the All-New Mazda3, Mazda’s ground-breaking Skyactiv-X engine will go on sale in the UK this autumn. Featuring Mazda’s unique Spark Plug Controlled Compression Ignition (SPCCI) technology, the 2.0 litre, four-cylinder Skyactiv-X engine is the world’s first commercial petrol unit to combine the spark ignition of a petrol engine with the compression ignition of a diesel.

Providing drivers with the free-revving performance of a petrol engine and the superior response of a diesel, the Skyactiv-X engine will have a maximum power output of 180PS and 224Nm of torque. Skyactiv-X achieves outstanding, WLTP-measured fuel economy of up to 52.3mpg and produces CO2 emissions from just 96g/km* – depending on transmission and wheel size.

The All-New Mazda3 Skyactiv-X is also equipped with Mazda M Hybrid technology, fitted as standard. This intelligent 24V mild-hybrid system minimises fuel consumption, increasing fuel economy and lowering emissions by recycling energy recovered during deceleration that powers an electric motor that assists the engine.

The All-New Mazda3 Skyactiv-X engine will be available on both the hatchback and saloon models later this year, with a choice of six-speed Skyactiv-MT manual or six-speed Skyactiv-Drive automatic transmissions. The Mazda i-Activ all-wheel-drive system will be available on the All-New Mazda3 Skyactiv-X Hatchback. Full UK specification and pricing details of the All-New Mazda3 Skyactiv-X will be announced next month.

Mazda Skyactiv-X 180PS

(PS)/rpm

180/6,000rpm

Nm/rpm

224/3,000rpm

WLTP fuel consumption [1]: All-New Mazda3 Skyactiv-X (180 PS)

16-inch wheels

18-inch wheels

Combined

MPG

52.3-45.6mpg

50.4-40.9mpg

Extra-High

MPG

50.4-43.4mpg

48.7-39.7mpg

High

MPG

61.4-53.3mpg

57.6-47.9mpg

Medium

MPG

54.3-48.7mpg

52.3-43.4mpg

Low

MPG

42.8-35.3mpg

40.3-30.4mpg

CO2 emissions (combined)

g/km

96-119g/km*

102-125g/km*

*NEDC converted figures

[1] Vehicles are homologated in accordance with the type approval procedure WLTP (Regulation (EU) 1151 / 2017; Regulation (EU) 2007/715).

SKYACTIV-X with Spark Controlled Compression Ignition (SPCCI)

One of the principle points of focus in Mazda’s long-term technology development strategy, Sustainable Zoom-Zoom 2030, is the need to significantly lower CO2 emissions while offering cars that are both great to drive and reduce running costs through improved fuel consumption. Mazda is committed to reducing its corporate average ‘Well-to-Wheel’ CO2 emissions to 50% of 2010 levels by 2030, and to 90% by 2050.

Powered by petrol, the SKYACTIV-X SPCCI engine offers Mazda customers outstanding power, acceleration and environmental performance by combining the best attributes of both spark and compression ignition. With two thirds of global electricity production currently relying on the use of fossil fuels, Mazda believes regulations placing the emissions of an EV (electric vehicle) at zero to be disingenuous. Indeed, when converted to a ‘Well-to-Wheel’ figure, the average CO2 emissions of an EV can be very close to a conventional vehicle depending on the energy mix the electricity is made from.

Thus recognising that electric powertrains do not, in fact, currently satisfy society’s wish for a drastic reduction in greenhouse gas emissions, Mazda is focusing on bettering the real-world emissions of EVs by maximising the efficiency of the internal combustion engine.

Accordingly, Mazda has been looking to significantly reduce CO2 emissions from petrol engines based on the analysis of combustion control factors. One of the key control factors is the use of a highly lean mixture of air and fuel: 2-3 times leaner than in today’s conventional engines. This mixture has so little fuel in the air that a normal engine with spark plugs cannot fire it.

Mazda already uses uniquely high compression ratios on its current SKYACTIV petrol engines to reduce fuel consumption, so this lead to the idea of increasing the compression ratio even further and igniting the fuel simply by compression as is the norm in modern diesel engines.

However, in past decades this approach has been researched several times by various Original Equipment Manufacturers without development moving beyond the laboratory; the problem being the very small operating area in which a stable and predictable combustion was achievable.

So Mazda rethought the whole process and developed its own proprietary combustion method -Spark Controlled Compression Ignition (SPCCI) and the company’s new 2.0 litre SKYACTIV-X engine that uses this process.

With SPCCI, the engine injects a lean air-fuel mixture, compressing it up to 16:1 which is just below the level required to achieve compression ignition. To ignite the mixture at the right time, a small injection of atomised fuel directly around the spark plug builds a richer core. When fired, this small core creates a pressure wave that runs through the combustion chamber, increasing the compression and temperature to the critical point where the main body of fuel combusts. The power variation can be controlled via the aspired first charge and by a second charge injected shortly before the piston has reached its optimal position. This greatly extends the area of lean operation and promotes very high fuel economy. Conventional combustion is used only at high engine loads and during very cold starts.

By controlling the compression ignition with a spark plug, the issues of knocking and unstable combustion can be avoided, achieving a seamless transition between compression ignition and spark ignition. This means the engine can run more than 80% of time in a very efficient mode. In areas where low vehicle speeds are used frequently, fuel economy can be improved by up to 30% and CO2 emissions reduced by a corresponding amount thanks to the use of super lean combustion. Compared to the MZR engine of 2008, fuel economy is improved a dramatic 35-40%, and SKYACTIV-X even equals or exceeds Mazda’s latest SKYACTIV-D diesel engine in fuel efficiency.

With improvements being especially great in the light engine load range, SKYACTIV-X challenges the commonly-held belief that medium petrol engines have poor fuel economy in cities. The range within which the engine is able to deliver excellent fuel economy has been dramatically expanded with the use of the SKYACTIV-X, meaning that this system is able to deliver lower fuel consumption than ever before in a wide range of driving scenarios, including both urban and long-distance motorway driving.

Mazda’s new SKYACTIV-X engine has potential to rival C02 of EVs when measured ‘well-to-wheel’

Mazda’s new SKYACTIV-X engine, which combusts through compression ignition, shows the potential to reduce emissions from an internal combustion engine to below that of an electric vehicle when measured well-to-wheel.

Committed to the principal of the right solution at the right time, Mazda has concluded that, until the growing quantity of power from renewables replaces the dirtiest forms of electricity generation such as brown coal, electric powertrains do not currently satisfy to society’s wish for a drastic reduction in greenhouse gas emissions. Rather, the company is focusing on bettering the real-world emissions of EVs by maximising the efficiency of the internal combustion engine, as exemplified by its new, next-generation SKYACTIV-X petrol engine.

This is not to suggest Mazda is turning its back on the development of the electric powertrain. Committed to reducing its corporate average ‘Well-to-Wheel’ CO2 emissions to 50% of 2010 levels by 2030, and to 90% by 2050, the company will introduce an EV and mild hybrid technology -or microhybridisation- in 2019, models with built-in batteries in 2020, and the brand’s first plug-in hybrid in 2025.

With two thirds of global electricity production currently relying on the use of fossil fuels, Mazda believes regulations placing the absolute emissions of an EV (electric vehicle) at zero to be disingenuous. In order to more correctly measure CO2 emissions over the life cycle of a vehicle, Mazda is moving beyond current ‘Tank-to-Wheel’ evaluations (which consider only emissions whilst driving), to a ‘Well-to-Wheel’ method, which also considers fuel extraction, manufacturing and shipping.

The use of ‘Well-to-Wheel’ emissions evaluation will allow Mazda to make a more accurate assessment of the appropriate powertrain development paths to pursue in the immediate future. In this context, the company has reconsidered the ecological merits of EV vehicles, which consume power generated by using fossil fuels.

A mid-sized electric car consumes around 20 kilowatt-hours of electricity per 100km. Production of this power with coal translates into CO2 emissions of 200g/km; with petroleum, 156g/km; and with LNG (liquefied petroleum gas) 100g/km. When converted to a ‘Well-to-Wheel’ figure, then, the average CO2 emissions of an EV are some 128g/km, depending on the power generation source, whilst that of a Mazda SKYACTIV-G petrol engine of comparable power is 142g/km. This means that with as little as a 10% improvement in efficiency, SKYACTIV-G engine emissions will be on a par with those of electric vehicles.

In fact, a SKYACTIV-G engine produces less CO2, well-to-wheel, than EVs whose electricity is generated by coal or petroleum. And whilst EVs using LNG-produced electricity have 30% lower emissions, Mazda believes it can improve the internal combustion engine sufficiently to match that level.

Mazda’s new SKYACTIV-X engine represents a significant step towards that goal. It is the world’s first commercial petrol engine to use compression ignition, in which the fuel-air mixture ignites spontaneously when compressed by the piston.

The company’s proprietary combustion method -Spark Controlled Compression Ignition (SPCCI)- combines the spark ignition of a petrol engine with the compression ignition of a diesel. This overcomes two issues that have, until now, impeded the commercialisation of compression ignition petrol engines; maximising the operating zone in which compression ignition is possible, and achieving a seamless transition between compression ignition and spark ignition.

Two of the key factors to the successful operation of SPCCI are; firstly, the engine’s ability to switch from the ideal, stoichiometric, 14.7:1 air-to-fuel mixture of a conventional petrol engine to the lean-burn mixture -over 29.4:1; and secondly, the continuous use of spark plugs.When the engine is cold or running at high revs, the spark plugs ignite the mixture in a conventional manner.

When the engine is in lean-burn mode -about 80% of the time- the spark plugs ignite a pulse of fuel-rich mixture injected into the centre of the cylinders under ultra-high pressure during the compression stroke. This, in turn, provokes compression ignition with a rapid and particularly even burn which is leading to a more powerful piston stroke. The combustion timing is controlled by the flame from the spark plug. Hence, SPCCI combines the advantages of both petrol and diesel engines to achieve outstanding environmental performance, power and acceleration.

Combined with a supercharger to boost intake pressure, compression ignition delivers unprecedented engine response and an increase in torque of 10-30% over the current SKYACTIV-G petrol engine, whilst the super lean-burn improves engine efficiency by up to 20-30% over the current SKYACTYIV-G.Moreover, SKYACTIV-X even equals or exceeds the latest SKYACTIV-D diesel engine in fuel efficiency.

Operating with high efficiency across a wide range of rpm and engine loads, the SKYACTIV-X engine allows greater latitude in the selection of gear ratios, providing both superior fuel economy and driving performance.