Singer Vehicle Design Announces Collaboration With Williams On High Performance And Light-Weighting Services
By singrw-adm in news/media
The Porsche 911 engine presented here is part of a stand-alone selection of restoration and modification services strongly oriented towards light-weighting and dynamic gains. To discuss a vehicle restoration please contact: 1.818.796.4238
FOR IMMEDIATE RELEASE
Contact: Deb Pollack for Singer Vehicle Design
(t) +1-805-320-9248 (e) email@example.com
Amy Easton for Williams Advanced Engineering
(t) +44 (0)7483 012981 (e) firstname.lastname@example.org
LOS ANGELES, August 8, 2017– Singer Vehicle Design announces details of a new level of restoration and modification services commissioned by three of its clients for their air-cooled Porsche 911s. To meet the high-performance and light-weighting goals required for the restorations, Singer has undertaken a performance research study with Williams Advanced Engineering, part of Williams Grand Prix Engineering Group, and engaged the celebrated motorsports concern to engineer technical modifications and components for these restored and reimagined Porsche 911s.
The first fruit of this work is a modified, naturally aspirated, air-cooled, flat-six Porsche 911 engine with a 4.0L capacity, four-valves per cylinder and four cam-shafts, rated at 500HP.
The engine benefits from the additional insight and vast experience of famed engine designer and engineer, Hans Mezger, who is a technical consultant to the project.
The engine will power a 1990 Porsche 911 currently being restored for long-term Singer client, Scott Blattner.
The full spectrum of the enhancements provided by Williams Advanced Engineering and other technical partners will be unveiled in Scott’s restored, reimagined and reborn Porsche 911 in September.
Beginning with the Mezger-designed Porsche 3.6L engine from the 1990 911, the resulting specification is as follows:
- Four-valve cylinder heads
- Engine speed range extended beyond 9,000 rpm
- Dual-oil circuits
- Cylinders and pistons with titanium con-rods
- Aluminum throttle bodies with carbon fiber trumpets
- Upper and lower injectors for improved performance
- A carbon fiber air-box with active multi-stage resonator chamber for mid-range torque optimization
- Inconel and titanium exhaust system optimized for thermal performance
- CFD optimized and enlarged engine cooling fan
- Ram air induction system with pressure recovery in intake plenums
- Lightweight materials, including titanium, magnesium and carbon fiber are used extensively to reduce component mass and vehicle weight.
As ever, Singer’s work is motivated by the desire to understand the perspectives and requirements of its clients and to present them uniquely personal restoration and modification services – always guided by the philosophy: Everything is Important.
Rob Dickinson, Founder of Singer Vehicle Design, explained: “Helping our clients realize their unique vision for a reimagined Porsche 911 with the help of automotive royalty is very much a privilege. Singer is delighted to be working with Williams Advanced Engineering and Hans Mezger to offer our clients a “next level” of restoration and modification services for their Porsche 911s. With careful and dedicated development, this iconic air-cooled engine has much to give both its existing devotees and a generation of new enthusiasts.”
Dickinson stated that the full culmination of this exciting work with Williams and other technical partners will be revealed shortly and will represent a stand-alone selection of restoration and modification services strongly oriented towards light-weighting and dynamic gains.
Jonathan Williams, Williams Heritage Director, noted further: “The Porsche 911 has long been a standard bearer in the worlds of racing and advanced engineering – two things that we care deeply about at Williams. As an admirer of the 911, I’m thrilled that we’re working with Singer and its clients on these restorations.”
Singer client and commissioning owner, Scott Blattner, provided additional context saying: “My journey with Singer Vehicle Design began with the restoration of two coupes. In 2016 these were joined by my Targa, which recently ran in the famous Hill Climb at Goodwood Festival of Speed. I became intrigued by the possibility of further evolution and I’m very excited to be sharing the first details of the engine for my car.”
Paul McNamara, Technical Director, Williams Advanced Engineering added: “This has been a fantastic opportunity to showcase the core capabilities of Williams Advanced Engineering. Having had the opportunity to consult with Hans Mezger – the “father” of the iconic air-cooled flat-six – about the development of the engine, our team was pleased to be able to provide a solution to Singer’s clients’ requirements and of course, to be a part of this iconic vehicle’s continued evolution.”
About Singer Vehicle Design
Singer Vehicle Design (Singer) restores and reimagines 1989 to 1994 Porsche 911s for its clients. Singer does not manufacture or sell automobiles.
Singer is not sponsored, associated, approved, endorsed nor, in any way, affiliated with Porsche Cars North America, Inc., or Dr. Ing. h.c.F. Porsche, AG. The Porsche® name and crest and 911® are trademarks of Dr. Ing. h.c.F. Porsche AG, and any other products mentioned are the trademarks of their respective holders. Any mention of trademarked names or other marks is for purpose of reference only.
The product of Singer’s painstaking effort is a Porsche 911 restored and reimagined by Singer. Out of respect for Porsche, and to respect Porsche’s trademark rights, this incredible machine should never under any circumstances be referred to or described as a “Singer,” “Singer 911,” “Singer Porsche 911” or a “Porsche Singer 911,” or in any other manner that suggests that it is anything but a Porsche 911.
About Williams Advanced Engineering
Williams Advanced Engineering is the division of the Williams Group that harnesses Formula One derived technology and know-how to deliver highly innovative products and services to the motorsport, automotive, defence and healthcare sectors. Working in close collaboration with its customers, Williams Advanced Engineering helps meet the sustainability challenges of the 21st century and improve performance, with its expertise in aerodynamics and thermodynamics, electrification, advanced lightweight materials and vehicle integration.
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