September 16 has long been a special day for Malaysians as it is the day, in 1963, when the East Malaysian states of Sabah and Sarawak and Singapore united with the Federation of Malaya to form Malaysia. And this year, on the 59th anniversary of Malaysia Day, BMW Group Malaysia will also have a special event to celebrate the day as it is also the 50th anniversary year of BMW M, its performance division.
At this joint celebration of Malaysia Day and 50 Jahre M (50 Years of M), BMW M owners and enthusiasts will gather on September 16 to create the largest gathering of BMW M performance vehicles in the country.
Over 150 M vehicles This gathering will be made up of over 150 vehicles from five generations of M models which will make their way into the city centre on the morning of September 16. They will gather at 10 am at the Lalaport Bukit Bintang City Centre along Jalan Hang Tuah in Kuala Lumpur.
Open to the public, the event will also feature a special display of some of the oldest BMW M models in the country. These models have been found after a search by BMW Group Malaysia since May this year.
Other activities at the event will include music performances and engagements with the public who can win exclusive merchandise.
About BMW M 50 years ago, in May 1972, a small business unit with 35 employees was created and initially known as BMW Motorsport GmbH. It was only in 1993 that the present name was established, by which time its role was a fundamental part of the BMW Group, broadening its scope to more than just competition cars. It exemplified the engineers’ expertise in combining authentic motorsport functionality with exclusive and sporty aesthetics, while producing its own memorable models.
Over the past 50 years, BMW M has given the motoring world many iconic performance cars – models like the legendary M1, M3, M5 and M635CSi. Although BMW M focused almost exclusively on the producing performance and racing cars, many BMW enthusiasts were also looking for the BMW M power and badging on road cars.
The M5, followed by the M3, were developed for these enthusiasts and quickly became the most iconic BMW M vehicles in the line-up. They not only won numerous championship victories in touring car racing but also performed impressively on the road.
Some of the BMW M models that have become historical icons of the brand.
BMW M has followed market trends and as enthusiasts came to appreciate SUVs, it developed the X5 M and X6 M, the first M models with 4-wheel drive and turbocharged engines. Today, the BMW X family members with M badges include the X3 M Competition and X4 M Competition.
With the iX M60, the brand is also headed into the electric era. For a company like BMW M, which has built up a reputation producing cars with superlative performance means that the same kind of performance cab be expected – even with electric models.
The iX M60 leads BMW M into the electric era.
“At the BMW Group, M remains the most powerful letter in the world, as it represents our high-performance vehicles born out of pure passion for motorsports. This fascination for power, speed and dynamics has put M on the map since 1972. Fifty years on, we are thrilled to be celebrating the legacy of the BMW Motorsport GmbH with a great community of owners and enthusiasts alike. This milestone is not one we could have achieved without their loyal support throughout these years,” said Hans de Visser, Managing Director of BMW Group Malaysia.
Well over 40% of all Bugatti vehicles ever created have been open-top in design but in the Chiron era, a roadster was never offered. Therefore, as a farewell to the legendary W16 powerplant, Bugatti decided to create a roadster which it has named the W16 Mistral.
“The introduction of the W16 Mistral continues the legacy, and also opens the next chapter in the Bugatti roadster story, inspired by over a century of open-top legends,” said Mate Rimac, CEO of Bugatti Rimac.
Being a very special Chiron, much consideration went into the name it should have. Inspiration came from the mistral, a powerful wind that blows from the Rhone River valley, through the chic towns of the Cote d’Azur in southern France and into the Mediterranean.
Built around the 1,600 ps W16 engine, first used in the Chiron Super Sport 300+, the W16 Mistral offers superlative performance unlike any open-top car. Its design and engineering is completely bespoke. The existing monocoque is not simply cut off above the A-pillars to make way for the new open-top design but has been reengineered and reshaped to create a more rounded silhouette without compromising performance.
“We know the W16 Mistral will always have significance in the story of Bugatti, marking the last time that perhaps the greatest ever automotive powertrain is used in a roadgoing production car. We, as a design team, felt enormous pressure to deliver styling that immediately conveyed this landmark moment, drawing inspiration from some of the most beautiful roadsters in Bugatti history,” said Achim Anscheidt, Bugatti’s Design Director.
As they considered the project, they looked at the 1934 Bugatti Type 57 Roadster Grand Raid (pictured above), a sporting roadster that represented the pinnacle of elegant design. Marked out by its dual aerodynamic headrests, flowing backwards into the bodywork, and a cut down V-shaped windscreen, this particular Grand Raid was effortlessly sophisticated with an understated sportiness. Finished in a duo-tone black and yellow livery, it would provide the perfect inspiration for this watershed moment in the Bugatti story.
The W16 Mistral has colours inspired by the Type 57 Roadster Grand Raid. A warm black with hints of truffle brown and subtle yellow accents can be seen throughout. Not only is it homage to the iconic coachbuilt body, but also to Ettore Bugatti, who chose the black and yellow combination for many of his personal cars.
The open-top hypercar also captures the essence of the Grand Raid’s V-shaped windscreen and evolves it into a modern-day work of art. A curving windscreen that seemingly wraps around the A-pillars, blending seamlessly into the side windows and creating a ‘visor’ effect that hints at the motorsport levels of performance available. The windscreen itself is a marvel of engineering, curved just enough to create the rounded visor design, without distorting the driver’s vision.
The top line of the windscreen and side windows flows purposefully around the side air intakes. This character line then flows back underneath the side glass to shoot through all the way to the front horseshoe grill creating a new three-dimensional character for the famous Bugatti C-line introduced on Chiron.
To keep the body side section slim, but also allow for optimum airflow to the W16, the oil cooler intakes on the side were deliberately separated from the engine air intakes, which now sit on the roof, just behind the occupants.
The two-new roof-mounted engine air scoops also reference the Type 57 Roadster Grand Raid, as well as the first open top Bugatti of the modern era: the Veyron 16.4 Grand Sport. Tighter, more powerful and appearing to leap forwards, the W16 Mistral exhibits an entirely different character.
“To reflect the W16 Mistral’s new character, we also totally reinvented its frontal appearance, in line with the vertical layout of our unique or few-off models like Divo and La Voiture Noire. It’s immediately imbued with a sense of exclusivity; the vertically stacked headlights are completely bespoke and the famous horseshoe grille is reimagined to be much more three-dimensional; both deeper and wider. At the rear, we challenged ourselves to create a striking but also more elegant iteration of Bolide’s X-theme taillight motif, which forever left its mark on the world of automotive design,” Anscheidt explained.
The headlights themselves are intricately shaped, incorporating a 4-light signature that subtly nods to the W16 Mistral’s 4-wheel-drive and 4 turbochargers. But their 3-dimensional surface also functions as an aerodynamic aid that funnels air through the light and out through the wheelarch to improve aerodynamic drag. The wider horseshoe grille allows the high temperature engine radiator to be fully fed purely from one intake, leaving the two side intakes to focus only on providing air to the intercoolers.
The X-taillight, meanwhile, serves the function of venting the side oil coolers through ducts connecting the triangular negative space in between the X beams to the side radiators. Therefore, a pressure drop is created between the side intakes and the outlets at the back, which helps to manage the mid-temperature cooling circuit of the engine most effectively.
Other engineering innovations can be seen in Bugatti’s advanced composite materials are paired with cutting-edge titanium and aluminium 3D-printing for the striking design. A detailed analysis of the W16 Mistral’s dynamic stiffness allowed engineers to develop lightweight solutions that would ensure optimum handling and performance under the most extreme conditions.
The interior follows that in the Chiron, providing an experience that’s both elegant and luxurious, but also functional enough to ensure all information is easily visible at up to 420 km/h. The dedication to material quality remains a hallmark of Bugatti design, with advanced, lightweight titanium, aluminium components milled from a solid block and soft, blemish-free leathers.
An intricate woven leather is used on newly designed door panels, meticulously tested and produced to Bugatti quality standards that envision regular use for over a hundred years into the future. The gear shifter – machined from a solid block of aluminium – features a touch of wood and an amber insert with Rembrandt Bugatti’s famous ‘dancing elephant’ sculpture locked within.
When Bugatti’s last roadster, the Veyron 16.4 Grand Sport Vitesse, set a world speed record of 408.84 km/h in 2013, its 8-litre quad-turbo W16 had 1,200 ps. The W16 Mistral has 1,600ps, making use of the same power unit that propelled the Chiron Super Sport 300+ to a world-record-breaking speed of 490.7 km/h in 2019.
“The union of a roadster format and our W16 powertrain is absolute perfection. With the roof removed, and a pair of large air intakes directly behind your head feeding around 70,000 litres of air through the engine every minute at full bore, driving the W16 Mistral connects you to the intricate workings of this revolutionary powertrain like no other Bugatti to date,” declared Rimac.
Only 99 units of the W16 Mistral will be built, each with an ex-factory pricetag of 5 million euros (about RM22.4 million). Orders are no longer accepted as the entire production run has already been taken, with first deliveries due to being in 2024.
One year ago, at IAA Mobility in Munich, Germany, the BMW Group displayed a special X5 which runs on hydrogen. Known as the iX5 Hydrogen, it uses the X5 bodywork but has a hydrogen fuel-cell electric drivetrain.
The iX5 Hydrogen is under development because BMW sees hydrogen fuel-cell technology as having the potential to become a further pillar in the BMW Group’s drivetrain portfolio for local mobility without CO2 emissions. Provided the gas is produced using renewable energy and the necessary infrastructure is available, this technology can complement the BMW Group’s electrified drivetrain portfolio in future.
Fuel-cell + BMW eDrive technology The iX5 Hydrogen combines fuel-cell technology with a fifth-generation BMW eDrive. The drive system uses hydrogen as fuel by converting it into electricity in a fuel-cell. The electric output can be up to 125 kW/170 bhp, with water vapour as the only emission.
The electric motor was developed from BMW eDrive technology also used in the BMW iX. In coasting overrun and braking phases, it serves as a generator, feeding energy into a power battery. The energy stored in this power battery can deliver a system output of 275 kW/374 bhp to provide the driving experience that the brand has been known for.
The hydrogen needed to supply the fuel cell is stored in two 700-bar tanks (the two cylinders in the picture above) made of carbonfibre reinforced plastic (CFRP), which together hold almost 6 kgs of hydrogen. “Filling up the tanks only takes three to four minutes – so there are no limits on using the BMW iX5 Hydrogen for long distances, with just a few, short stops in-between,” said Juergen Guldner, Head of BMW Group Hydrogen Fuel Cell Technology and Vehicle Projects.
Built in-house The carmaker recently commenced fuel-cell system production at its competence centre in Munich. By the end of this year, it will have a small fleet iX5 Hydrogen SAVs that will be run around the world for test and demonstration purposes
“As a versatile energy source, hydrogen has a key role to play on the road to climate neutrality. And it will also gain substantially in importance as far as personal mobility is concerned. We think hydrogen-powered vehicles are ideally placed technologically to fit alongside battery-electric vehicles and complete the electric mobility picture,” said Oliver Zipse, Chairman of the Board of Management of BMW AG. “By commencing small-scale production of fuel cells today, we are demonstrating the technical maturity of this type of drive system and underscoring its potential for the future.”
“Our many years of research and development work have enabled us to get the very most out of hydrogen technology,” added Frank Weber, Member of the Board of Management of BMW AG, Development. “We have managed to more than double the fuel cell’s continuous output in the second-generation fuel-cell in the BMW iX5 Hydrogen, while weight and size have both decreased drastically.”
So far, the iX Hydrogen prototype has already successfully demonstrated its excellent everyday usability, even at very low temperatures, during the final round of winter testing in Sweden at the start of this year.
Technological expertise, high efficiency standards A chemical reaction takes place in the fuel cell between hydrogen from the tanks and oxygen from the air. Maintaining a steady supply of both elements to the fuel cell’s membrane is of crucial importance for the drive system’s efficiency. In addition to the technological equivalents of features found on combustion engines, such as charge air coolers, air filters, control units and sensors, the BMW Group also developed special hydrogen components for its new fuel cell system. These include the high-speed compressor with turbine and high-voltage coolant pump.
The individual fuel cells required for manufacturing the iX5 Hydrogen are supplied by from the Toyota Motor Corporation, which has been selling a hydrogen fuel-cell electric vehicle (the Mirai) since 2014. The two companies have been collaborating on fuel-cell drive systems since 2013.
Setel users now have a more convenient option of starting refuelling with the ‘One-Tap Fuelling’ feature. This allows them to activate the pump with just one tap upon arrival at all PETRONAS stations nationwide. The new solution is available to the first 1,000 registered Setel users around Malaysia, with a staggered rollout in the next 2 months.
Current Setel users who are interested to receive early bird access can opt-in by posting an Instagram Story or Tweet of their Dah Setel So Far page with the caption: “I want One-Tap Fuelling now”, tag @setel and include the #SetelOneTapFuelling hashtag.
From now until October 4, 2022, they also have a chance to win limited edition Setel gift boxes when they upload their most creative video on Instagram or Twitter showing their experience using the ‘One-Tap Fuelling’ feature’
In the upcoming enhancements, motorists will be able to pre-set their preferred fuelling amount – either by litres or a full tank, in the Preferences page when setting up the new feature. Motorists can also pre-set their preferred payment method, which includes CardTerus for direct payments via a debit or credit card, as well as Setel Share, which allows users to share their Setel Wallet or CardTerus with two others to pay whilst jointly earning Mesra points.
“We are constantly innovating and developing solutions that meet our users’ ever-evolving needs, especially in this endemic period where Malaysians are travelling more frequently than before. Over the past 4 years, our loyal users have continuously raved about their refuelling experience at PETRONAS stations. With this new enhancement that brings about a refuelling journey from the usual 5 clicks to just one tap through a one-time setup, Setel offers a more personalised and faster refuelling journey for its users. Gone are the days of rummaging through wallets for cash or cards to refuel and earn loyalty points,” said Mazlin Erawati Ab Manan, Chief Executive Officer of Setel.
Setel’s contactless service can be used at EV charging stations as well.
Setel has been in the market since July 2018, offering a mobile platform for motorists patronising PETRONAS stations. In recent times, it has also added EV charging for use by those owning electric vehicles. Its services include Setel Express, an in-app service for Setel customers to track their e-commerce deliveries and pick up/drop off parcels at selected PETRONAS stations.
In March 2022, the Audi RS Q e-tron won its first desert rally in Abu Dhabi, an important achievement for an electrically-powered vehicle. Audi was the first carmaker that committed to develop a viable alternative drive concept for the gruelling event, making it a pioneer in motorsport.
The original RS Q e-tron development had been rushed as it had to be done during the difficult period of the coronavirus pandemic in 2021 and limited testing opportunities. However, with the experience and learnings from that tough first event, Audi Sport’s engineers have developed a new and significantly improved prototype which will be entered in the 2022 Morocco Rally and the 2023 Dakar Rally.
“We’ve managed a good debut at the Dakar with the Audi RS Q e-tron and even our first stage victories in a motorsport discipline that is new to us,” said Rolf Michl, Managing Director of Audi Sport GmbH and responsible for motorsport at Audi. “The entire team is working excellently together and pulling in the same direction. As is usual at such an early stage, the drivers, co-drivers and technicians quickly agreed on the next development targets. We have summarized the result in a new evolution package – the RS Q e-tron E2.”
Main components of the first RS Q e-tron
Second phase of development program Reminiscent of the legendary Audi Sport quattro in its final development stage for Group B rallying in the 1980s, the body is completely new and features significantly enhanced aerodynamics. It also has a lower weight and centre of gravity.
“The Audi RS Q e-tron E2 does not adopt a single body part from its predecessor,” said Axel Loffler, Chief Designer of the RS Q e-tron. In order to comply with the prescribed interior dimensions, the cockpit, which was previously narrowly recessed towards the roof, is now significantly wider. The front and rear hoods have also been redesigned.
“We are now doing away with the underflow of the rear hood to the left and right of the B-pillars. In conjunction with modified lay-ups – optimized fabric layers of the composite materials – this solution reduces weight,” said Loffler.
The T1U prototypes will have to weigh 2,100 instead of 2,000 kgs in the future. Given that the first generation of the RS Q e-tron was overweight, it was still necessary to save several dozen kilograms. This is accompanied by the lowering of the vehicle’s centre of gravity.
New aerodynamic concept The aerodynamic concept in the area of the body below the hoods is completely new. This section is somewhat like the shape of a boat’s hull: its widest point is at the height of the cockpit, while the body tapers significantly towards the front and rear.
The designers dispensed with the part of the fenders that was behind the front wheels and formed the transition to the door. Internally, this structure was called the ‘elephant foot’ and as a result, it saved more weight and optimized the airflow.
“The aerodynamic aspect should not be underestimated in desert rallying either,” said Axel Loffler, Chief Designer of the RS Q e-tron. “Admittedly, the new cockpit dimensions mean that the body has a larger and therefore less favourable cross-section. Nevertheless, it was possible to reduce the overall aerodynamic drag by around 15%. But this does not change the top speed, which remains limited to 170 km/h in the regulations.”
Nevertheless, the improved airflow offers one major advantage. “It further reduces the energy requirements of the electrically powered car,” explained Loffler. “We implemented the aerodynamic calculations entirely using computational fluid dynamics. These computer simulations replace the time-consuming work in the wind tunnel and still deliver highly precise results.”
Simplified operation in the cockpit The drivers can look forward to their new workplaces. The displays are still in the driver’s field of view and located in the centre console in the usual style, and the central switch panel with its 24 fields has also been retained. However, the engineers have restructured the displays and controls.
They can also work much more easily when there is a puncture, which is not uncommon in off-road events. Simple, flat and easily removable body components replace the previous bulky covers for the spare wheels in the flanks. The new 10-spoke rims are much easier to handle, making the change of wheels safe and quick.
New operating strategies further improve the efficiency of the electric drivetrain. The drivetrain of the RS Q e-tron E2 comprises an energy converter consisting of an internal combustion engine and a generator, as well as a high-voltage battery pack. Two electric motors are used to power the front and rear axles.
Better energy management Energy management plays a crucial role here. The electronic control system of the complex electric drivetrain proved its worth in the first rally events and issues only occurred in extreme cases. At the Dakar Rally, for example, it was noted that there were short-term surpluses of power in situations where the wheels made less contact with the ground while jumping or on uneven terrain.
The so-called auxiliary consumers also benefit from optimized control. The servo pump, the air-conditioning cooling pump and the fans have a measurable impact on the energy balance. In the course of the debut season this year, the Audi and Q Motorsport rally team gained valuable experience that enables better assessment.
The air-conditioning system, for example, works so aggressively that it could cause the coolant to freeze when constantly running at its maximum output. In the future, the system will run in an intermittent mode. This saves energy, yet the interior temperatures only fluctuate slightly, even over longer periods.
“We have combined all the important lessons in a very short time. The result of our ideas is the E2 evolution,” says Uwe Breuling, Head of Vehicle Operations Audi Sport. “Our development team’s determined and cost-efficient work has prepared us perfectly for our second Dakar Rally.”
As the drivers left the grid for the first of 72 laps, the home crowd filled the air with orange for their countryman – championship F1 leader Max Verstappen. Both Verstappen and Ferrari’s Charles Leclerc got a good start but it was the Red Bull driver who had a slight edge. Further back, Mercedes-AMG’s Lewis Hamilton also sliced through the grid and had just a tiny bit of contact with Ferrari’s Carlos Sainz who had been one slot ahead of him on the grid.
With Zandvoort having very short laps, the cars raced across the starting grid again within a very short time. Haas driver, Kevin Magnussen, provided some drama in the opening lap as his car went wide into the gravel and although he bounced off a barrier, he managed to remain in the race but in last position. His team mate, Mick Schumacher, was not doing well either, having slipped two positions back from eighth on the grid.
Within the first 12 minutes, 6 laps had already been completed and Verstappen was already setting the fastest time. But just one lap later, Leclerc pushed hard and did an even faster lap, gaining a bit on the Dutchman. Hamilton was less than a second behind Sainz who was dropping back from the front two.
Tyre degradation was appearing and Scuderia Alphatauri’s Pierre Gasly went into the pits for new tyres, followed by McLaren’s Daniel Ricciardo. They had started on softs which did not seem to be a good choice. Alpine F1’s Fernando Alonso also came in on lap 13 for tyres. Schumacher’s pit-stop was frustrating as it took a while before he could be released.
Lap 15 saw Sainz and Sergio Perez, the other Red Bull driver, pitting. It was messy as Sainz could not shoot back out straight away due to Perez coming past and the Ferrari driver was still for 11 seconds – which is a long time in the pitlane.
As Leclerc headed off to the pits, Hamilton inherited second place, 12 seconds behind Verstappen. When the Ferrari driver got back to the race, he was fourth with Mercedes-AMG’s George Russell ahead.
When Verstappen finally came in on lap 19, Hamilton took the lead, followed by Russell. Switching to mediums, the Dutchman had a very quick stop as usual, returning in third place and about 8 seconds behind Hamilton, and 5 seconds ahead of Leclerc. Up to that point, both Mercedes-AMG drivers were still on their original tyres – a one-stop strategy?
The Alfa Romeo ORLEN team must have been grateful that their cars remained in the race, Zhou Guan-Yu in 13th and Valtteri Bottas in 15th place. But Zhou picked up a 5-second penalty for exceeding the speed limit in the pit lane.
On lap 28, Verstappen closed in on Russell and speeding along the main straight with DRS open, he easily slipped past the Mercedes-AMG into second as he powered his way around on the outside. One lap later, Hamilton left the lead to Verstappen as he rushed into the pits. While changing tyres, Russell, Leclerc and Perez passed by so he rejoined in fifth, 11 seconds ahead of Sainz.
It was Russell’s turn on lap 31 which gives second place to Leclerc, who has a 7-second gap to close with Verstappen. He’s comfortably ahead of Perez who has to keep an eye out for Hamilton sneaking up on him. It was hard to say which Mercedes-AMG driver might have a chance at winning the F1 race as Russell was faster than Hamilton at times.
Halfway through the F1 race, Verstappen looked steady in the lead with an 8-second gap from Leclerc, with Perez around the same time gap from the Ferrari driver. This meant his focus could be entirely on Hamilton who was in his mirrors. Hamilton gets past on lap 37 but Aston Martin’s Sebastian Vettel is in the way and the Mercedes-AMG driver cannot pull away from Perez quickly enough. Perhaps too focussed on Hamilton, Perez is caught by surprise as Russell slips past him as well into fourth place.
On lap 45, there was confusion when Scuderia Alphatauri’s Yuki Tsunoda pulled to the side as he seemed to have tyre problems. He was able to make it back to the pits where his wheels were checked. He rejoined and then had problems again after 3 laps and pulled over between Turns 4 and 5. but the Virtual Safety Car (VSC) was activated as the Japanese driver left his car.
This triggered a flurry of activity in the pits and on lap 49, Verstappen pit from the lead! The Mercedes-AMG drivers also did the same, but the Red Bull driver got back out and still kept his lead. Racing resumed on lap 50 as the VSC was deactivated. Hamilton was then 12 seconds behind Verstappen, with his team mate 3 seconds away. Instead of being able to keep the lead, Hamilton had been forced into working for the win again due to the VSC.
Alfa Romeo lost a car again as Bottas came to a stop on the main straight while he was in 18th place. The F1 Safety Car came out on lap 56 and Verstappen shot straight to the pits for softs. But the Mercedes-AMG duo did not do the same, so Hamilton was back in the lead with his team mate shadowing him. However, on lap 58, as the cars diverted along the pit lane because the marshals were clearing the Alfa Romeo, Russell did a stop and got soft tyres. That dropped him to third behind Verstappen.
The F1 Safety Car ended its duty after 3 laps. Mercedes-AMG had a buffer between Hamilton and Verstappen but lost it. They had a good chance of Hamilton winning but if he could not, then Russell was ready to take over. As the race started, the Dutchman pulled out and swooped past the Mercedes-AMG easily. The Dutchman regained the lead in the Dutch Grand Prix with 11 laps remaining.
Within a short while, Verstappen had already opened the gap to 2 seconds. As the cars charged through Turn 1, Russell passed Hamilton who was very frustrated at having mediums while his British team mate had softs that worked a lot better. From being in the lead, Hamilton now had to deal with a determined Leclerc who passed him on lap 66.
Verstappen had the speed to stay ahead no matter how hard Russell tried, while Hamilton struggled with his tyres to try to keep Sainz from also displacing him. How quickly his fortunes had changed.
Clocking a fastest lap, Verstappen again won in front of his home crowd which went crazy as their hero sped across the finish line. He had pretty much led from pole position on the grid and got it right again.
