Variable Geometry Turbochargers: TND

As part of my final year at university I am taking part in a research project to design a new VGT system (Variable Geometry Turbocharger). As a team we have begun work and a website has been created to document our progress and share our methods with the public.

Visit the site: http://www.turbonozzledevelopment.blogspot.co.uk/

Follow us on Twitter: https://twitter.com/TurboNozzleDev

Content will include:

- Prelim work for building up CAD models from physical components (Laser Scanning)
- CAD tutorials
- CFD Studies of Turbomachinary
- FEA
- Testing using turbocharger test rigs and wind tunnels
- Materials and Manufacturing
- Business Plan

Initial measurements and note taking on the base HY40-V model 

Please give us a look, there will be regular updates, photos and videos as well as a twitter feed!

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Spark Ignition Engines: Emissions Guide

Emissions have become a focus of the automotive industry in recent years, in light of environmental concerns. Internal combustion engines are responsible for a large portion of the pollutants in our atmosphere; and so engine makers should bare responsibility for reducing this damage. Cars contribute over 15% of the global fossil fuel carbon dioxide emissions.

The main exhaust products are: Carbon dioxide, carbon monoxide, unburned hydrocarbons, nitrates, hydrogen gas, small quantities of water vapour and oxygen.

The differing levels of these products are dependent on a number of factors, many of them are sensitive the air fuel ratio within the engine. Also, the sources of these pollutants are known, and can be quantified as to their significance, but not eliminated.

For spark ignition (petrol) engines, unburned hydrocarbons come from a variety of phenomena. 5.2% come from crevices in the cylinder itself. The fuel can sit around the piston ring at the cylinder wall and not be exposed to the flame, leading to unburned gases being expelled to the environment. Other sources of this include: exhaust valve leakage, in-cylinder oxidization and quenching. Quenching is the effect of rapid cooling of the fuel at the cylinder wall preventing it from burning; this is also a source of aldehydes.

In SI Engines CO (Carbon Monoxide) is controlled mainly by the air fuel ratio (AFR). In lean mixtures (too much air for the quantity of fuel) dissociation occurs, whereby carbon dioxide decays into carbon monoxide and oxygen. They can also occur as unburned hydrocarbons partially oxidize during the exhaust stroke.

Nitrogen oxide (NOx) emissions are more complex, and are dependent on chemical reactions in series; such as the Zeldovich mechanism. Nitrogen and nitrogen oxides do increase as the temperature of the flame increases inside the cylinder. Flame speed also has an effect on the formation of NOx gases, and NOx will also increase with lower engine speeds.

So, in SI engines, CO and unburned hydrocarbons can be reduced by running with a lean mixture, but this will also lower the engine output. 

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Latest Technical F1 developments: Red Bull Exhaust

Pictures taken at Silverstone this weekend have uncovered that Red Bull have adopted or are at least testing an exhaust chamber. Also known as a Helmholz exhaust, the regular exhaust pipe features a blind addition which can accumulate exhaust gases when pressure is high in the exhaust pipe. It can then release those gases again when the driver gets off the throttle, hence evening out the pressure differences that occur in the exhaust pipe.

Apart from the evening out in an attempt to gain a more constant exhaust flow - and hence a more constant rear downforce at the diffuser - a Helmholz resonance chamber can also help the "Kadenacy Effect" in a specific RPM range of the engine.

The Kadenacy effect is an effect that forms from pressure-waves in gases. In essence, careful design of the dimensions and position of the exhaust changer can assist scavenging of exhaust gases out of the cylinders and therefore increase the pressure drop across the intake and exhaust valve area within a specific RPM range. As such it could be used to increase engine performance in the engines' most used RPM range.

To make room for the exhaust chamber that Ferrari debuted in F1 through 2011, RBR redesigned the entire exhaust of the RB8. While it previously ran close to the car's engine heat cover and then curved downward with a 180° turn, the final turn is now curved upwards, similar to Williams' exhaust layout.

Also note, as marked with yellow, the upward direction of the final 10cm of the exhaust pipe. The regulations specify that this must be a straight, circular section pointing up between 10° and 30°.

Great article came from F1Technical.net, No copyright infringment intended.

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BMW & Toyota Join Forces On Green Engines

Japanese carmaker Toyota and Germany's BMW are to work together on environmental-friendly motoring technology. They will do joint research on next-generation batteries for green cars. BMW will also supply clean 1.6 and 2 litre diesel engines to Toyota, beginning in 2014 for models for the European market.
Bosses from the two companies said they are also discussing other medium and long-term collaborative projects.

Toyota said as a result of the agreement it plans to expand its European range and sell more fuel-efficient, diesel cars. "It is a great joy and a thrill to enter into this relationship with BMW," said the company's president Akio Toyoda. BMW chairman Norbert Reithofer said that "supplying Toyota with our fuel-efficient and dynamic diesel engines represents another important step in the planned expansion of our sales activities".

"The agreement marks a milestone for ongoing cooperation between two companies that set the benchmark in complimentary field," said BMW's sales and marketing director Ian Robertson.
The BBC's Jorn Madslien, who is at the Tokyo motor show, said neither BMW nor Toyota had a lot of experience with such co-operation deals.
A similar partnership between Germany's Volkswagen and Japan's Suzuki is currently on the rocks, with Suzuki trying to force an end to the co-operation.

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Australian GP Report - Button Revels in Victory

Jenson Button hailed his victory in the Australian Grand Prix as a "dream start" to the new Formula 1 season.

Team-mate Lewis Hamilton finished third, after starting on pole , to underline McLaren's competitiveness.
"It was very important for us to get this one in the bank early on," said Button, whose lead went unchallenged after he jumped Hamilton off the line.

In contrast to the last three years, McLaren emerged strongly from pre-season testing and made it count at the opening race in Melbourne. The Woking-based team locked out the front row in qualifying and Button coasted to victory after passing Hamilton off the line.

"For the last couple of years our first races have been tricky," said Button. "I'd say we've been pretty dominant today.
"It's an amazing way to start the season.
"As a team, the win shows how important the winter is. The guys have done an amazing job. This win will definitely help them push hard in the extra hours they are doing."

Button believes the race also highlighted the increased competition throughout the field in 2012.
"We all think this is a very special year in Formula 1, having six world champions and so many competitive teams," the 2009 champion added.
"It's great to see F1 is in a great place at the moment. I'm very excited heading to [the next race in] Malaysia."
After passing Hamilton off the start, Button quickly built a lead and was unchallenged until the safety car came out on lap 37 and closed up the pack of cars.
Sebastian Vettel pitted under the safety car and came out ahead of Hamilton, who had been running in second, but Red Bull's world champion conceded he had no chance of catching Button after the restart.

"I thought I would be in a good position to have a go at Jenson but two corners and he was gone," said Vettel.
"It wasn't very easy to get away from Lewis but Jenson was out of sight. He deserved to win."
Hamilton was left to rue not only Vettel's clever strategy under the safety car but a poor start to the grand prix.
"It was a shocking start," said Hamilton, who had been determined to put a mixed 2011 season behind him in the new campaign.
"I'm not sure what happened. I let out the clutch and got a lot of wheel spin. That followed all way through the launch phase. We lost a lot of ground from there and the safety car didn't help us.

Martin Whitmarsh McLaren team boss

"It's still a great job by Jenson. Clearly we're very quick so we go forward to the next race in good shape."

When asked whether McLaren are now the dominant team, Hamilton responded: "It's too early to tell.
"In qualifying, we're quick and competitive but Red Bull were massively quick in race so they're still a force to be reckoned with."
McLaren team boss Martin Whitmarsh summed up the race weekend as "nearly perfect".
"Lewis was unlucky with the safety car," he commented. "Jenson drove majestically, he didn't put a foot wrong. It was a bit tight on fuel, we struggled a bit. But it's a great way to start the season.
"We've proved we've got a quick car [and] there'll be a few bits for the next race."

From the BBC Website

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Button is Biggest Threat to Red Bull - Horner

Red Bull boss Christian Horner says McLaren's Jenson Button is the biggest threat to his team this season, but warned that there is more to come from defending champion Sebastian Vettel.

Horner also named Lewis Hamilton of McLaren, Ferrari's Fernando Alonso and Kimi Raikkonen of Lotus as contenders.

But he insisted Red Bull's back-to-back champion Vettel will take some beating.
"We are yet to see the best from him," Horner told BBC Radio 5 live. "He will evolve and get stronger."
Button, the 2009 world champion, finished second to Vettel in the 2011 season, a distant 122 points behind the German.

With the 2012 season poised to start in Australia on 18 March, Horner is predicting a closer contest for the title this time round.

"Seb had an unbelievable year and in the end dominated significantly," he said. "But there are some big opponents out there, with six world champions on the grid.
"Lewis is going to be pushing hard this year, Jenson had a great year last year, you can't rule out Fernando because he is a world-class driver and it will be interesting to see how Kimi fares on his return."
Asked to pick out the strongest rival to Vettel and his team-mate Mark Webber, Horner responded: "Probably Jenson."
Horner said he was happy with Red Bull's car after they successfully trialled upgrades during pre-season testing in Barcelona.
"Those upgrades seem to be working OK and will certainly be on the car in Australia in 10 days' time," he said.
"I think we're set for a really fascinating season. Things move on so quickly and the running order at the end of last year doesn't guarantee it's going to be the running order at beginning of this year."

Story from BBC Sport, No copyright infringement intended.

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Gallery: New F1 Cars for the 2012 World Championships

With the 2012 F1 season almost upon us, many of the teams have realeased press images of their new cars which will be burning up the rubber this year. A personal highlight is the again stunning Red Bull car, and a fairly sinister looking Williams. We can only hope with this new breed of cars comes closer competition for podiums and points than last season.

Caterham

Lotus E20

Ferrari F1 2012

Mclaren Mercedes MP4-27

Red Bull RB8

Force India VJM05

Torro Rosso STR7

Williams FW34

Sauber C31

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Used Volkswagens

A Volkswagen represents an excellent option for a used car due to the manufacturers exacting standards when it comes to build quality and VW’s industry leading reliability.  There are a huge number of Volkswagens on Britain’s roads so the used car market has a rolling stock of quality used vehicles.  

Many people may imagine buying a used Volkswagen in terms of wandering around a used car dealership fending off pushy salesmen.  This is an option, but searching online can save a lot of labour and hassle.  Every four minutes a car is sold on E-bay and sites such as Motors.co.uk offer a vast choice of vehicles that your average used car forecourt would struggle to match.

Buying a used Volkswagen online could seem rather risky but this isn’t necessarily the case with the right precautions.  If you find a car on E-bay which is stationed locally, you’re welcome to arrange a viewing with the seller.  Likewise, on Motors.co.uk, most people will limit their search to a 30 mile radius, meaning they can pick up the vehicle with minimal fuss and they won’t waste time on disappointed viewings. 

The buyer should exercise due caution with any online auction as the bids you make are legally binding when accepted. 

Volkswagen has a huge range of desirable cars and the number of Polos, Golfs, Sciroccos, Beetles and Foxes available should be extensive enough for you to find a fairly exacting match.

Volkswagen was formed in 1937 and VW Group owns industry giants such as Audi, Seat and Bentley.  It’s had more than its fair share of iconic vehicles, including the Beetle and the VW Camper Van but it is now defined by its modern offerings which have attained a lofty status of their own.  The Golf and the Polo have been topping the charts since the 70s. 

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Ones to Watch: Geneva Motorshow 2012

The 82^nd Geneva Motorshow is just around the corner and this year, as ever, it looks like the world’s car manufacturers will be bringing some impressive new models and innovations.  MINI, Nissan, Ssanyong and Rinspeed have already shown us peeks of their concept cars and there have been images released of new small cars from Peugeot, Skoda and General Motors.  The article below rounds up the expected offerings from the major car companies around the world when they roll into Geneva on the 8^th of March 2012. 

Maserati – Gran Turismo Sport

Rinspeed – Dock and Go Concept

Ferrari  - California

BMW – 6 Series Grand Coupe + 4 new M performance vehicles

MINI – Clubvan Concept

Mitsubishi – New Outlander (Lineup of 13 new models)

Chevrolet – Cruze Station Wagon

Cadillac – ATS Compact Sedan

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Ecclestone Confident of Bahrain Grand Prix

Bernie Ecclestone is confident this year's Bahrain Grand Prix will go ahead on April 22 despite reports of fresh violence in the country this week.
February 14 marked the one-year anniversary of the 'day of rage' when protests escalated into violent conflicts last year, and international media agencies claimed smaller clashes with security forces took place again on this year. According to the BBC a heavy police presence meant the centre of Manama remained quiet, but youths throwing rocks and petrol bombs were met by police hitting back with tear-gas, rubber bullets and stun grenades outside the capital.
"The only message I got was that there were some kids in trouble with the police," Ecclestone told the Daily Telegraph. "We are planning to go. I've always said that if there was going to be any drama it would be on the 'day of rage'. They would have to do something then. People there seem confident that a race two months away will be alright."
He added: "The teams are not the slightest bit concerned. They seem happy that things will go ahead without problems. Last year was a more clear-cut decision not to go but things have changed a lot since then."
In the past week members of the UK parliament have written open letters in the Times newspaper both for and against the grand prix going ahead. Although a decision either way will be seen to have some political connotations, Ecclestone said safety is his only consideration.
"We've always been non-political," he said. "Any decision will be made on grounds of safety."
But an FIA spokesman said the "staging of a grand prix would be beneficial in bridging some of the difficulties Bahrain is experiencing".
A spokesman for the Bahrain International Circuit told CNN: "We are entirely confident that the race can be and will be an excellent event. The FIA has said that there is no reason why the grand prix should not go ahead. Jean Todt [FIA president] has been visiting Bahrain himself, keeping in constant contact. The FIA has said that there is no reason why the grand prix should not go ahead."
The unnamed spokesman also compared Bahrain's problems of the last twelve months with London's riots last August.
"There's no doubt that [in Bahrain] there have been some small riots, nothing like on the scale that we saw in London," he insisted. "There have been some public order disturbances, but on the kind of scale that Britain has endured many times."
He added: "When it comes to being in and around the track, the drivers and the teams will be extremely safe. Absolutely, totally confident about that."

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Your Career After Being Charged with DUI

If you go out parting together with your friends, you need to leave your car behind and employ a taxi instead. In case you leave the party drunk and you get stopped for driving under the influence, DUI charges can ruin your lifetime and have negative effects in lots of facets of your life. Many people believe that the DUI arrest happens when there is some sort of damage or injury. This isn't the case because the officer who pulls you over will arrest and ask you for for just being drunk and driving. Many laws have been put into effect to manage driving under the influence. In lots of countries the Department of Cars will revoke your licence if you're confronted with DUI charges. Whenever your licence is taken from only you get suspended, this can cripple most of your activities. You will have hardships dealing with work and also running your individual life.

If the licence is revoked and also you really should drive in order to restore normalcy in your lifetime, you are able to apply for DUI licence. This can be a special kind of licence which will only allow you to drive back and forth from work. You will not be allowed to use your car for any other reason whatsoever. There is a distinction between suspension and revocation of the licence. You can get restored from suspension in a short while but when your licence is revoked, the issue becomes complicated. You need to look for a phoenix dui attorney who will help in the application in order to retain your work. This is mostly ideal for those who have driving jobs.

When your licence is suspended, it also implies that you can't drive if you don't apply for a DUI licence. A good arizona dui lawyer can help you understand this licence. In case you have a sick one which you are taking proper care of, it can become quite tricky. Most judges will pay attention to the pleas of people that need to drive to work because of the nature of the work or even the distance involved. First time offenders often enjoy leniency in the courts and for these to get the DUI licence will be easy. Unfortunately from frequent offenders, the likelihood of being allowed DUI licence are extremely minimal as nothing appears to convince the court.

Once you have received the DUI licence, you need to remember to be always sober and not end up on wrong side from the law. After a certain period without any DUI incidents, your suspended licence will be reinstated and your record will be clean once again. A good lawyer can tell you about this and help you with the procedure. If you're able to avoid being charged with DUI, that might be the best option. DUI poses an excellent danger to a lot of facets of your life."

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MINI confirms entry to 2012 WRC

The Mini World Rally Team has confirmed its entry in the 2012 World Rally Championship, according to AUTOSPORT's sources.

MINI WRC car during the 2011 season.

The British-based team missed the original December 19 entry, but an announcement is expected this week to clarify Mini's position, joining Ford and Citroen as full manufacturers in the series.

As confirmed by the Monte Carlo Rally entry list - and revealed by AUTOSPORT - the team will only run one of its two factory drivers full-time in this year's WRC.

Spaniard Dani Sordo will maintain his seat in the #37 John Cooper Works WRC, while Kris Meeke misses the season opener in favour of paying private driver Pierre Campana.

AUTOSPORT's source in the FIA said: "We have an agreement that Mini will be registered as a manufacturer for this year's championship. We understand there are existing concerns over the position of the promoter - and particularly the implications for the sport's coverage in Germany, but we are addressing those concerns."

Mini's parent company BMW is known to be unhappy about the level of coverage in Germany and about the ongoing situation with North One Sports and the future of its parent company Convers Sports Initiatives, which is in administration.

While Mini has committed a car to the full world championship, it remains to be seen whether Sordo will compete in the most expensive rounds of the series, such as Rally New Zealand, or whether one of private Mini drivers takes the entry.

The source added: "This is not an ideal situation. Ideally we wanted, in fact everybody involved wanted, the original plan of two cars, two drivers: Sordo and Meeke doing all 13 rounds. That wasn't possible, so we had to find a solution which we have done. The priority here is that Mini is a manufacturer in the 2012 WRC."

Tensions are still believed to be running high between BMW in Munich and Prodrive, the Banbury-based team which developed and runs the factory Mini John Cooper Works WRCs.

As was announced at the team launch last year, Prodrive does has a contract with BMW to run its cars in the world championship until the end of next season.

Nobody from Prodrive was willing to comment on the firm's WRC commitments for the year ahead.
 
 
Article from Autosport.

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F1 2012 - Race Calendar

The 2012 F1 season is nearly upon us and the race calendar has been released with the season kicking off in Melbourne Australia on the 16th of March and ending with the 20th race on the 25th of Novermber in Sao Paulo, Brazil.

This season promises to be full of excitement; I personally hope it will be much more hotly contested, such that the champion will be decided in the last race. Vettel's domination, although impressive, did take the edge off the season towards the end as the result was already obvious; I have everything crossed that he will have some serious competition this year.

Click on the image below to enlarge.

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BMW i8 Concept Car

After successful initial testing of the vehicle concept, the decision for a series production vehicle was quickly made. The BMW i8 Concept is the next step in the evolution of the BMW Vision EfficientDynamics Concept. The result: The most progressive and innovative sports car of its time. Its innovative plug-in hybrid concept combines the modified electric drive system from the BMW i3 Concept – fitted over its front axle – with a high-performance three-cylinder combustion engine producing 164 kW/220 hp and 300 Nm (221 lb-ft) at the rear. Working in tandem, they allow the two drive systems to display their respective talents to the full, delivering the performance of a sports car but the fuel consumption of a small car.

Acceleration of 0 to 100 km/h (62 mph) in under five seconds combined with fuel consumption of under three litres per 100 kilometres (approx. 94 mpg) are figures currently beyond the capability of any vehicle powered by a combustion engine of comparable performance. Thanks to the eDrive technology with its large lithium-ion battery, which can be charged from a domestic power supply, the BMW i8 Concept can travel up to 35 kilometres (approx. 20 miles) on electric power alone. Added to which, the 2+2 seater offers enough space for four people, giving it a high level of everyday practicality.

The LifeDrive architecture of the BMW i8 Concept has been carefully adapted to enhance the vehicle's sports car character, and therefore to deliver unbeatable performance and excellent driving dynamics. The motor in the front axle module and combustion engine at the rear are connected by an "energy tunnel", which houses the high-voltage battery. This gives the car a low centre of gravity – and the dynamic benefits that come with it. The positioning of the electric motor and engine over their respective axles and the space-saving and well-balanced packaging of all components result in an optimum 50/50 weight distribution.

The sporting character continues into the interior. Boasting a driver-focused environment unmatched by any BMW Group vehicle before it, the BMW i8 Concept immerses the driver fully in the unique driving experience. The BMW i8 Concept is the sports car for a new generation – pure, emotional and sustainable.The design of the BMW i8 Concept is as special as the car's overall concept embodying the perfect synthesis of technology and aesthetic allure. Its sweeping lines and flat silhouette lend the vehicle a strikingly dynamic appearance even when standing still. A large, transparent glasshouse lends the exterior an extraordinary feeling of lightness and highlights the exceptional efficiency of this vehicle concept. Short front and rear overhangs round off the sporting overall impression.As with the BMW i3 Concept, layering again serves as the central design element of the interior and exterior. The individual vehicle components are also clearly visible from the outside, the black and transparent Life module clearly setting itself apart from the silver-coloured body components around it. This layering approach lends the BMW i8 Concept an extremely technical and cutting-edge appeal.

View Gallery The BMW i8 Concept's Exterior

Dynamic side view.

Taut surfaces and precise edges form an extremely sculptural and organic surface structure. The precise lines along its flanks and BMW i "stream flow" also give the BMW i8 Concept a strong sense of powering forward even when it is standing still. The BMW i8 Concept's doors swing upwards like wings to provide an undeniably emotional and sporting allure. Below the doors, the silver-coloured layer moulds the car's flanks into a powerful wedge shape, opening out from the door sills towards the rear. A blue flourish accentuates the dynamic presence of the sills. Together, the bonnet and door sill sculpting emphasise the BMW i8 Concept's forward-surging stance, and their smooth lines imbue the car with a touch of lightness.

Striking front end.

The BMW i8 Concept also shows its dynamic sports car persona when viewed from the front. A number of different levels interact with one another in the design of the front end, while the expressive surface treatment exudes dynamic verve and advertises the car's sporting potential. The full-LED headlights of the BMW i8 Concept are designed as two U-shaped configurations.

A black, semi-transparent "V" rises out of the bonnet just behind the kidney grille, opening out towards the windscreen and guiding the eye to the electric motor below. The "V" also offers the first glimpse of the CFRP module and extends back towards the rear like a black band to provide a visual connection between the different sections of the car.

Sporty rear end.

Similarly to the front end, the rear of the car is also very low, horizontal and sculptural in design. The silver-coloured side sections form a striking vertical frame around the rear of the car, with a precise line extending out to the sides enjoying particular prominence. In its centre the silver-coloured and blue-framed rear diffuser is a wider and lower interpretation of the version on the BMW i3 Concept, adding a distinct sporting flavour to its relationship with its stablemate.

At the rear, the car's exceptional sporting credentials are also expressed in width-accentuating lines, three-dimensional air outlets and "floating" tail lights with air through-flow. The tail lights, which also have a distinct horizontal design, are integrated into the upper layer of the rear and share the signature U-shape of the BMW i light concept.

Purpose-built interior.
The transparent surfaces in the doors and roof give the exterior and interior design of the BMW i8 Concept the appearance of merging into one another. The colour concept and underlying structure of the BMW i8 Concept interior closely mimic those of the BMW i3 Concept. Here again, the Porcelain White support structure, black technical level and comfort section with Mocha Brown leather are split into three different layers. The arrangement of the air vents, control panels and displays also betrays the car's family ties to its BMW i3 Concept sibling. Overall, however, these features have a more sporting character and are geared much more clearly towards the driver. Indeed, a level of driver focus beyond that of any BMW Group vehicle before it allows the BMW i8 Concept to immerse the driver fully in the unique experience behind the wheel. Driver-relevant functions such as the gearshift lever, start-stop button and parking brake are arranged around the driver on the centre console and the graphics are strongly geared towards the driving seat as well. The three-dimensional displays are extremely clear and flash up the relevant information for the driving situation at hand. At the same time, occupants in the BMW i8 Concept sit in a highly integrated position low down in the car and are separated by the battery running lengthways through the interior. This longitudinal bisection of the cabin underlines the sporting and forward-looking character of the BMW i8 Concept interior.

Optimum information.
The freestanding information display in the dash is joined by an equally large display taking the role of the instrument cluster. Designing the central instruments in this way enables driver-relevant information to be conveyed in a three-dimensional and high-resolution format. In keeping with BMW i style, the displays are premium, modern and purist. Depending on the driving mode, the two drive systems are depicted by a pair of ellipses, which supply information on their operation at any given time. Other information – such as the available range and fuel level – can be found here, too.

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Motorsport Zone Goes Multi-Platform!

I am delighted to announce than not only can you enjoy the articles of Motorsport Zone through your laptop or desktop computer it is now also available and beautifully formatted on iPad and iPhone.


For those of you who have no tried it yet and own an iPad or iPhone, Flipboard is a fantastic application it allows you to build a completely custom magazine (content rich) using internet news feeds and although that sounds complicated i assure you it is not. All you have to do is download the app by searching Flipboard in the app store, open the application, click 'more' and in the search type 'Motorsport Zone' and select this blogger feed. It is that simple. The beautiful layout is shown in the screen shots below.


Note: Although currently only iPad compatible Flipboard will be coming out for iPhone in the next month or so, i shall update this article when it does to show you the results. In the meantime see at the bottom of this page on the best way to check out Motorsport Zone on your iPhone. Also, Motorsport Zone is fully compatible with almost all mobile browsers.

Above: Flipboard's Magazine layout - pages turned by swiping from left to right (landscape)

After selecting an article this is the format for reading in Flipboard in portait here, also readable in landscape, simply swipe from top to bottom of the screen to read on.

For the time being the best way to view motorsport zone other than obviously in the browser is to download MobileRSS from the app store and add the feed by clicking on the RSS feed at the top of this page and entering it.

If you're looking to buy a vehicle then make sure you visit motors and search for new and used cars either in your local area or nationwide throughout the UK.

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Engine Design 101

This article covers the design considerations for: Cylinder heads, cylinder blocks, sumps, lubrication systems (including oil pumps), superchargers and turbochargers.

Fig 1 - Engine with cutaway section to show pistons.

The engine is the heart of any car, or petrol or diesel driven vehicle for that matter. A poorly designed engine means a poorly designed car, there is so much to consider in the design for an engine that a blog post just won’t cut it. I will however try to cover all of the key areas and explain the basic principles and design considerations for major parts.

Just an initial point, this article doesn’t contain anything on the subject of the power cell unit (piston, crankshaft etc.); that can be found in the piston design 101 article here: LINK

Alternatively you can look in the categories section in the right hand sidebar and click on the ‘101 guides’ or ' section to see my range of articles on vehicle design.


Cylinder Head

Fig 2 - Cylinder head (from below).

Starting from the top is always a good idea so first of all we will look at the cylinder head and work our way down through the engine. The cylinder head is very important; it provides the upper portion of the combustion chamber and houses the valve train and camshafts. Generally speaking the main tasks of the cylinder head are to:

• Form the upper part of the combustion chamber.
• House the valve-train and its lubrication system.
• House spark-plugs (in a petrol engine) and fuel injection system.
• Resist combustion loads and allow cooling for valves, spark plugs and ignition.
• Provide sufficient oil drainage
• Seal and transfer charge whilst minimizing thermodynamic and breathing losses.

As i'm sure you can see already there are a lot of components involved here and it makes this part of the car very difficult to package well, as well as this it is subject to considerable cyclic loading from the combustion process and so needs to be very durable to repetitive wear.

Cylinder heads are typically made of cast iron or aluminium, cast iron has the advantage that it is very strong and cheap, aluminium however is more expensive but is very lightweight in comparison. An aluminium head would typically have the weigh about 50% of the weight of a cast iron head. Cast iron performs acceptably well but it is also more expensive to repair and harder to port (and more expensive to port) than its aluminium counterpart.

There is a future trend in the industry towards using Aluminium based silicon blend alloys as they provide a low mass and a high thermal conductivity to protect it against the thermal loading present from combustion.

The coolant systems housed within the head are often quite complex and require computer based tools to optimize, however after a design has been provided using FEA (finite element analysis) and CFD (computational fluid dynamics) then it is possible to test physically in a lab. This is done by fitting an engine with the prototype coolant system and make the head out of a clear plastic material so you can physically watch the coolant flow around during operation. This technique can be enhanced by dying particles of coolant in fluorescent colours and using high speed cameras to track them, this can help to find areas of blockage and poor circulation.

First generation direct injection used a layout by which air the fuel was wall guided round the cylinder, this lead to efficiency improvements of around 5 - 10%. The aim when injecting fuel and is to cause turbulence in the flow, this is known as forward tumble when done effectively, this does lower volumetric efficiency of the engine but allows for faster and more complete burning of fuel. The first generation system used a wall mounted spark plug to ignite the fuel. In the second generation layout designers managed to package the system so that the fuel and spark plug were both mounted centrally along with the valves, the differences are shown in the diagram below. Second generation injection lead to further efficiency benefits of around 5% and reduced the amount of wall wetting (fuel sticking to and burning on the walls of the cylinder).

Fig 3 - 1st Generation DI Layout
 (Notice side mounted injector).

Fig 4 - 2nd Generation DI
(showing forward tumble in red).

Camshaft

Camshafts are housed within the head and control the timing of the valves, camshafts typically move at half of the engine speed. The most common valve-train layout in modern cars is rows of poppet valves driven by camshafts. A layout called 'roller finger follower' is used in premium gasoline engines, this involves adding a rotating wheel to the rocker arm which controls the valve, this means that instead of rubbing surfaces we now have rolling surfaces so friction is reduced and thus the engine is more efficient. Generally camshafts are made of cast iron or steel. 3 common layout pros and cons are shown below:

Overhead Valve (Pushrod):

Fig 5 - Pushrod Valve System

• Pros: Simple and proven system, easy to implement in side mounted valve engines.
• Cons: High mass and component count, rods restrict port layout, not usable for small powerful engines.

SOHC - Single Overhead Camshaft Layout (one shaft for both exhaust and inlet valves):

Fig 6 - Single Overhead Cam Animation

• Pros: Reduced component count and reciprocating mass, low cost and higher engine speeds possible. 
• Cons: Restricted variable valve timing between inlet and exhaust valves. 

DOHC - Double Overhead Camshaft layout (one for exhaust one for inlet):

Fig 7 - Double Overhead Cam Animation

• Pros: Same as SOHC plus, higher engine output and reduced emissions 
• Cons: More components than SOHC and therefore more expensive

The future of the automotive industry seems to be heading towards variable valve-train systems, many manufacturers are currently working on using these systems to increase engine efficiency.


Cylinder Block

The cylinder block as the name suggests is the block of metal which makes up the cylinders, as such it is subject to significant repetitive loading, from both thermal energy and surface abrasion. 7 key properties that a cylinder block must have are listed below:

• Sufficient thermal conductivity
• Low thermal expansion
• High hot strength
• High strength to weight ratio
• High resistance to surface abrasion

Cylinder blocks tend to be made of cast iron and are bolted down to the end case and the onto the head with long bolts designed to withstand large loads (generally at least 3.5 times the peak gas load from the engine). Designs have been suggested with bolts which  travel all the way through the engine assembly keeping all the parts in constant compression, and the load is distributed through a nut plate below the end case. However this is hard to achieve due to packaging issues in a lot of engines.

Honing is used in the cylinders them selves, this is a process by which a number or horizontal holes are cut into the cylinder wall; This enables better distribution oil. Laser honing has also recently been introduced for racing applications and although the mechanisms of honing are not yet completely understood efficiency savings of up to 6% have been claimed.

When it comes to cooling the walls of the cylinders themselves coolant passages are cut in the block to allow coolant to pass around the cylinder and withdraw excess heat. This can be in the form of a wet liner (open topped) which helps to reduce the thermal expansion or closed deck, which seals the passages but means the do not extend the full length of the cylinder so maximum cooling is not achieved. However it means that the block has better structural integrity.


Sump


Most modern cars use a wet sump system for lubrication, this means that the oil supply is housed in the engine right at the bottom, and the oil pump is within the oil pan and it ran directly from the crank; by chain or belt. This case will use a single phase pump, this means that the oil flow is directly related to the engine speed (since it driven by the crank as i just mentioned). A pressure relief valve is also fitted to these systems so that at high load the pressure of the oil entering the engine is not to high. This is a simple piston normally, which will be spring loaded and sat in the oil feed channel, as the pressure increases the piston moves back and opens a hole which allows oil to exit and reduce the pressure.


Testing of lubrication systems is often performed on a what is known as a 'rock and roll rig' as the name suggests this provides a dynamic platform to move the engine around on to check lubrication is sufficient at a number of different angles (that may be typical in situations such as hill climbing or descent). Plastic covers are applied to the engine and cameras are used to observe the flow of oil and check for potential bad circulation or vortices (very bad!).


Dry sump systems have a fairly different layout, in this case the oil reservoir is not housed within the engine itself but in an external tank somewhere else in the vehicle. This requires a multi-stage pump which is externally mounted. This system has a huge advantage in that it significantly reduces the height of the engine. This means that the engine can be mounted lower and subsequently the centre of gravity of the car is lowered. As well as this it can lead to an increase in engine output (since no windage losses) it also means oil handling issues are reduced since it is housed externally. On the down side it is quite a complex system, as well as heavy and expensive.


Superchargers


Supercharging is popular because it means you can have increased performance for a fixed engine size, or equally you can decrease engine size for a given performance. By adding different degrees of supercharging manufacturers can create a range of different output engines from the same base engine design which is obviously very attractive from a manufacturing costs perspective. For those who don't understand supercharging or turbocharging you are basically supplying the engine with more air, which means you can also supply more fuel and therefore get more combustion and more power.


Since you are increasing the power and output of and engine when you supercharge it you need to consider a number of upgrades to ensure the engine can survive the increased loads present:

• Exhaust valve-train design and materials must be revised.
• Reduced compression ratios will be needed since thermal and pressure loads both rise. 
• New bearing materials may be needed to withstand the higher loads. 
• Increased oil pump capacity is required.
• The breather gas system may need to be redesigned to cope with higher pressures. 

Superchargers are often associated with parasitic losses within engines but that can be overcome with bypassing or clutching. In comparison to a turbocharger a supercharger has a favourable back pressure. 

There are two main types of supercharger compressor: 

Roots Blower Type

Fig 8 - Roots Blower Compressor Animation.

Typically has a peak efficiency of 65 - 70% and a peak compression ratio of 2 and runs at speed of around 20,000 revolutions per minute. It is commonly found in Mercedes, Audi, Mini and Jaguar superchargers. 

Screw Type

Fig 9 - Screw Type Compressor Animation.

Generally has a peak efficiency of 75 - 80% and a slightly increased compression ratio of 2.3 compared to the roots blower compressor. However it has a more limited use only found in AMG Mercedes. 

Turbochargers

Fig 10 - Turbocharger Diagram

Formula one is currently considering re-introducing turbochargers in 2013 and the BTCC are confirmed to be introducing them this year (2011). A turbo is a compressor which does very much the same job as a supercharger but the difference is in how they are powered. A turbo is driven by the exhaust gases as they are expelled from the engine, they pass through a turbine, which are attached by a single common shaft to a compressor. The exhaust gases spin the turbo up to incredible speeds of around 150,000 to 220,000 rpm with the smallest turbos providing the fastest speeds; thats over 10 times faster than typical supercharger speeds. They have a typical pressure ratio of 2.5-3.0 and the peaks of thermal efficiency lie in between 75 and 80%. Due to these speeds and pressures the air exiting the turbo can be around 140 degrees centigrade and such need cooling, so an intercooler is added which reduced this to around 40 -50. The cooled air is then passed through a throttle which controls the volume flow rate of air which then enters the intake manifold.

Typical materials for various turbocharger components:

• Compressor wheel - precision cast Aluminium alloys
• Compressor housing - die cast Aluminium alloys
• Turbine wheel - Nickel super alloy (Inconel)
• Turbine housing - die cast Iron
• Turbocharger shaft - forged Steel

Turbochargers are FAR more efficient at high speed and high load. At low speeds and loads 'turbo lag' tends to be present whereby very little happens when you press the accelerator since the turbo is not spinning up to speed and as such acceleration can be very poor while the turbo spins up and then suddenly gets up to speed and the vehicle will begin to accelerate quickly. 

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Vehicle Design: Piston Design 101

This article provides a truly comprehensive look at the design considerations for pistons. Further articles are available which provide a look at piston rings, the connecting rod and many other components. Select the '101 guides' or 'vehicle design' category in the right hand sidebar lower down the page. Anyway onto the article:

Fig 1: Labelled image of a piston and con-rod.

The two main requirements of the piston are as follows:

1. Contain all the fluids above and below the piston assembly during the cycle.
2. Transfer the work done in combustion to the connecting rod with minimal mechanical and thermodynamic losses.

They key thing to note about piston design for absolutely any application regardless of the field is that it is HUGELY dependent upon the task that the engine will be required to fulfill.  The pistons for a 1000 horse-power racing car will be designed differently and made from different materials than pistons that are used inside a tractor for example. The shape of the piston crown (see diagram above) can also vary dependent on the type of engine you are dealing with as they can be used to change flow characteristics within the cylinder. The crown of a piston in a diesel engine is likely to look different to the piston of a petrol engine, especially in high performance applications.  Despite this all pistons need to obey the following;

Five Key Properties of a Piston:

1. Sufficient thermal conductivity
2. Low thermal expansion
3. High hot strength
4. High strength to weight ratio
5. High resistance to surface abrasion

A few definitions for the terms that are mentioned above:

Thermal conductivity: The ability of a material to absorb heat without causing damage or significant change to the materials microstructure or properties.

Thermal expansion: How much the material will expand when heated.

Hot strength: Ability to withstand stress, strain and shear at temperatures higher than room temperature. (Piston temperatures will be covered later in this article).

Strength-to-weight ratio: Fairly obvious this one, ideally we want a very light material with very high strength, the lighter and stronger the better.

Surface abrasion: The rate at which material wears due to rubbing on the surfaces of it, surface treatments can be added to metals to increase the surface toughness and make them more resistant to this.

The piston is obviously one of THE key components in any engine; it provides the seal, which enables power to transfer to the crankshaft so an effective design is key.

Heat is one of the biggest problems faced when designing a piston, an example of typical road car piston temperatures and their distribution is shown below:

Fig 2: Typical temperature map for a piston

So n the crown of the piston the temperatures tend towards around 250 – 300 degrees Celsius and gradually decrease the further from the combustion you go. The second key property I mentioned earlier was that pistons should have a low thermal expansion; this is because at these temperatures pistons will expand, especially on the crown and the top of the skirt. Because of this, pistons are actually tapered, although it is not obvious with the naked eye pistons are wider at the bottom of the skirt than the top to allow for expansion at the crown. If this was not done then when the piston expanded then it could potentially become too wide to fit within the cylinder.

Piston temperatures also vary with speed, which is key to note for higher performance engines, since at 1500 rpm a piston crown can be around 100 degrees Celsius cooler than when the engine is providing 5000 rpm. Piston spray jets may be added to engine in these high performance engines in order to lower the temperature of the crown. These feed of the main oil gallery and usually provide between one half and one litre per minute.

Piston Materials:                   PROS                                       CONS

Cast Iron                                Hot strength                          Mass

                                                Hardness                               Thermal conductivity

                                                Thermal expansion

Aluminium Alloys                  Mass                                       Thermal expansion

                                                Strength-to-weight                Hot strength

                                                Thermal conductivity            Hardness

Carbon Fibre Reinforced     Mass                                        Cost

Carbon (CFRC) -                    Strength-to-weight                Operating issues

(Research use only)              Hot strength

                                                Thermal expansion

The operating issues mentioned with the CFRC pistons include hydrocarbon emissions, since the material used for the piston has been observed to absorb fuel particles and then release them in the exhaust causing unwanted pollutants, this is also a knock problem with this technology. However it must be pointed out these pistons are purely experimental at the moment and engineers are experimenting with materials in an attempt to come up with better compounds. 

Manufacturing Effects:

To demonstrate the effects of manufacturing effects on the performance of a piston we will focus on only aluminium pistons, however similar effects follow across most metals.

For spark injection engines, cast aluminium can provide an intricate part at relatively low cost and low weight. Forged aluminium however can provide a finer microstructure and therefore higher strength when compared to casting, albeit more expensive.

Due to the additional pressures occurring in a diesel engine (since the fuel is self igniting) the pistons require local reinforcements. For example, a cast aluminium piston for a diesel engine would be made from a higher temperature alloy than for a petrol engine, and the following reinforcements may be applied:

• Refined casting methods; finer microstructure around the bowl (crown).
• Insertion of high strength cast iron piston ring carriers.
• Insertion of bushes into the pin bores.

That is the end of the main piston design article, further articles going in depth into the design of piston rings, connecting rods and loads of other major components are available in the '101 guides' and 'vehicle design' categories found in the right hand side bar. Thank you for reading and please feel free to comment any questions about this subject or any other topic you'd like to see me write a guide to. 

By Adam Feneley,

Brunel University

MEng Motorsport Engineering (Level 2)

Affiliate of the Institute of Mechanical Engineers

April 2011

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