Sadly, there's no news yet about a new RX sports car.
The rumors were true. Mazda is bringing back the rotary engine, but don’t get too excited just yet. Instead of serving as the heart of a future RX sports car, the “exceptionally quiet” rotary engine will act as a range-extender to cure range anxiety. It will do so by recharging the battery pack on the go to prolong the total driving range of an electrified model.
Details are scarce at the moment of writing, but the Zoom-Zoom company does say the new rotary engine is small and offers “high power output” while being compatible with an assortment of electrified powertrains. Interestingly, Mazda goes on to mention the rotary engine has been engineered to also run on liquefied petroleum gas (LPG) and to double as a source of electricity in an emergency situation.
At first, Mazda will launch two battery EVs, one that will be powered exclusively by batteries while the other will combine a battery with the rotary engine acting as the range-extender. Both are scheduled to come out in 2020 and will pave the way for an electrified future as the Japanese marque estimates 95 percent of its cars will be electrified in some way by 2030. The remaining five percent will be represented by pure EVs.
While embracing electrification, Mazda is also further developing combustion engines with the new-generation SkyActiv-X gasoline unit benefitting from compression ignition.
All these efforts are being made to help Mazda achieve its goal of cutting CO2 emissions by half by the year 2030 compared to the 2010 levels.
MAZDA ROTARY ENGINE TO RETURN AS EV RANGE-EXTENDER
Mazda will launch its first Electric Vehicles (EV) in 2020 as part of its 'Sustainable Zoom-Zoom 2030' long-term technology development programme.
Unique technology approach
Mazda will initially launch two battery EVs. One powered solely by battery, the other pairing a battery with Mazda's small, lightweight and exceptionally quiet rotary engine as a range-extender.
The range-extender will recharge the battery when necessary to increase the vehicle's driving range, eliminating the range anxiety which continues to trouble a high percentage of battery EV users.
The rotary engine's small size and high power output make multiple electrification technology solutions possible via a shared packaging layout. Taking advantage of the rotary engine’s compatibility with gaseous fuels, the rotary-powered range extender is designed to also burn liquefied petroleum gas and provide a source of electricity in emergencies.
Mazda Sustainable Zoom-Zoom 2030
Expecting that internal combustion engines combined with some form of electrification will account for 95% of the vehicles it produces in 2030 (with battery electric vehicles accounting for the remaining 5%), Mazda will continue to focus on maximising the efficiency of the internal combustion engine, as exemplified by its new, new-generation SKYACTIV-X petrol engine, which combusts through compression ignition.
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. But the company is also committed to the principal of the right solution at the right time and -since energy availability and automotive power source fitness vary from region to region- in the right place.
Clearly, the electric power generation system in any given region determines how much an EV can contribute to 'Well-to-Wheel' reductions in CO2 emissions. And with CO2-emitting thermal power generation still globally predominant, a goal to reduce those emissions is likely to diversify fuel options in the immediate future.
In addition to alternative fuels including compressed natural gas, liquefied petroleum gas and even hydrogen, the automotive industry is also researching the viability of recyclable liquid fuels such as biofuels from microalgae growth.
Mazda considers the development of the latter critical to achieving the carbon neutrality of cars powered by the internal combustion engine, and is already involved in joint research projects and studies with the Tokyo Institute of technology and Hiroshima University as part of an ongoing, industry-academia-government collaboration.
Mazda hopes to further the contributions of its 'Sustainable Zoom-Zoom 2030' vision to society by sending EVs with the range-extender to areas affected by natural disasters, providing LPG-generated electricity for those in need.
Ever committed to the pursuit of driving pleasure, Mazda will also be exploiting the advantages of electric drive in combination with the company's proprietary technologies to produce EVs that not only comply with ever tightening environmental restrictions, but also fulfil its ongoing commitment to Hashiru Yorokobi -the 'exhilaration of driving'- through its Jinba Ittai driver and car as one design and engineering philosophy.