The velomobile: neither bicycle nor car

Kris De Decker of Low-Tech Magazine kindly allowed me to republish an article from 2010 – The velomobile: high-tech bike or low-tech car?  It gives and an excellent, but slightly dated, overview of the velomobile with a somewhat American flavour.  As such the opinions expressed, especially those in the conclusion, are those of the original author.  It is none-the-less well worth reading.  Here it is largely unedited.

Versatile

Picture: the Versatile.

Recumbent bikes with bodywork evoke a curious effect. They look as fast as a racing car or a jet fighter, but of course, they’re not.

Nevertheless, thanks to the recumbent position, the minimal weight and the outstanding aerodynamics, pedalling a “velomobile” requires three to four times less energy than pedalling a normal bicycle.

This higher energy efficiency can be converted felt in terms of comfort, but can also be utilised to attain higher speeds and longer distances – regular cyclists can easily maintain a cruising speed of 40 km/h (25 mph) or more. The velomobile thus becomes an excellent alternative to the automobile for medium distances, especially in bad weather.

Basically, a velomobile is a recumbent bike with the addition of a bodywork. Recumbent bikes are considered a bit weird, but they have some interesting advantages over normal bicycles. For example, a recumbent bike has no saddle but a comfortable seat with back support, so that you sit or lie more comfortably and can keep pedalling for longer. Because of their superior aerodynamic capabilities, pedalling on a recumbent takes less effort, allowing you to travel more quickly and further than on a normal bicycle. Recumbent bikes can have two, three or four wheels. Trikes (3 wheels) and quads (4 wheels) offer the additional benefit of stability.

Scorpion_fs_links_grau_bl_backgr

Picture: the Scorpion.

A velomobile – almost always a trike – offers two extra advantages over normal recumbent tricycles. The bodywork protects the rider (and mechanical parts) from the weather, so that the vehicle can be used in any season or climate. Furthermore, the aerodynamic shape of the bodywork further improves the efficiency of the vehicle, with spectacular results.

Velomobile versus bicycle

From the table below (source.pdf) one can observe that the power output required to achieve a speed of 30 kilometres per hour (18.6 mph) in a state-of-the-art velomobile (the Quest) is only 79 watts, compared to 271 watts on a normal bicycle and 444 watts on a neglected bicycle. Pedalling at a speed of 30 km/h thus requires 3.5 times less energy with a velomobile than with a normal bicycle. Going flat out (a power output of 250 watts) gives you a speed of 29 km/h (18 mph) on a normal bicycle and 50 km/h (31 mph) on a velomobile.

Speed compàrison bikes

Source: “The velomobile as a vehicle for more sustainable transportation” (pdf).

NASA rates the average long-term power output for a male adult at 75 watts, while fit individuals might easily sustain more than 100 watts for several hours, from 200 to 300 watts for one hour, and between 300 and 400 watts for at least 10 minutes. Lance Armstrong is said to have averaged between 475 and 500 watts for 38 minutes during an uphill climb in the 2001 Tour de France. (Source: The human powered home).

If you normally commute by bicycle, you can do two things with a velomobile: Retain the same speed as you normally do, but use 3.5 times less energy, or arrive at your destination twice as quickly with the same effort. This high efficiency greatly enlarges the range of a pedal powered vehicle. The bicycle is generally being viewed as a transport means for short distances, mostly below 5 kilometres or 3 miles (= cycling 15 minutes at a speed of 20km/h or 12.4 mph). However, the average distance of a car trip in Europe and in the US amounts to between 13 and 15 kilometres (8 and 9.3 miles).

Sinner mango red

Picture: the Sinner Mango Red Edition.

A velomobile reaches a constant cruising speed of 35 km/h (21.7 mph) with the same energy output, so that the distance covered in 15 minutes becomes 9 kilometres (5.5 miles) instead of 5 kilometres (3 miles). At a speed of 45 km/h (not unusual for a regular cyclist) the distance covered in 15 minutes becomes more than 11 kilometres (6.8 miles). Thus, twenty minutes of pedalling on a velomobile sufficiently covers an average automobile trip. The velomobile could replace a substantial portion of car miles, especially because the vehicles also protect their occupants from wind, rain and cold.

Quest

Picture: the Quest.

By definition, velomobiles are built for speed. The bodywork offers a distinct advantage at higher speeds, starting at 20 to 25 km/h (12.4 to 15.5 mph). Above those speeds, almost all energy produced by a cyclist is channelled toward combating air resistance. Because of the upright position, the aerodynamics of a cyclist on a normal bicycle are disappointing. A velomobile, on the other hand, suffers less air resistance than even the most aerodynamic sports car.

At lower speeds, however, the relatively heavy (25 to 40 kilograms) velomobile becomes a disadvantage. It accelerates slower than a normal bicycle, and has considerably more difficulty climbing a hill. An electric assist motor can solve this problem in hilly regions. The motor can help the velomobile climb, while energy can be recovered from the brakes during the descent. Of course, an electric assist can also be considered on flat terrain, an option that is gaining a lot of popularity these days.

1_front

Picture: the Leiba x-stream.

By definition, the velomobile is essentially built for longer distances. For shorter city trips the traditional bicycle is unbeatable. It accelerates faster, it is more manoeuvrable, and it is very easy to hop on and off.

Velomobile versus electric car

Dries Callebaut and Brecht Vandeputte, the Belgian designers of the WAW-velomobile, calculated how the efficiency of a velomobile relates to the efficiency of an electric automobile (using their own data and this source). During an eco-marathon earlier this year they equipped their velomobile with an electric motor, a complete substitution for pedal power. This is not really what the vehicle is intended for, but the advantage of the experiment is that it allows for an unequivocal comparison.

The energy consumption of the WAW was measured at 0.7 kWh per 100 kms (62 miles). This makes the velomobile in excess of 20 times more efficient than electric cars currently on the market. For example, the Nissan Leaf requires 15 kWh per 100 kms. The enormous difference is of course due to the enormous difference in weight. Without the battery, the Nissan weighs just over a ton, while the WAW weighs less than 30 kgs.

Versatile zijkant

Picture: the Versatile.

For a human powered velomobile the comparison is a bit more complicated and open to interpretation, because a human does not run (primarily) on electricity, but on biomass. The efficiency of a human powered velomobile thus depends on what the cyclist eats (the efficiency of an electric car also depends on how the electricity is generated). Callebaut and Vandeputte set the primary energy use to 0.6 kWh/100 km for a vegetarian diet from your own garden, to 2.4 kWh per 100 km for the average diet of the western non-vegetarian.

Versatile-boven01

Picture: the Versatile.

A human powered velomobile is thus 15 to 62 times more energy efficient than a Nissan Leaf. Not just 6 to 25 times, because we are comparing primary energy here. The 15 kWh that is consumed by the Nissan equates to around 37.5 kWh primary energy since electricity plants (in Europe) have an efficiency of 40 percent.

You can also argue that burning fat is a positive thing regardless of where food comes from, since obesity and a lack of exercise are endemic throughout the western world. The energy that is now being wasted in fitness centres, or the fat that is hanging in front of the television, could be put to good use as an oil substitute in transportation. In this view, the velomobile consumes (just as the cyclist and the pedestrian) 0,00 kWh per 100 kilometres.

Origins

The origins of the velomobile can be traced back to the beginnings of the twentieth century, but the modern, streamlined velomobile only appeared in the 1980s. The first commercially available velomobile was the Danish Leitra. In 1993, the Dutch Alleweder appeared on the market. About 500 of them were were sold in the Netherlands, Belgium and Germany throughout the 1990s.

Alleweder 5

Picture: the Alleweder.

The Alleweder introduced an important technological innovation: the self-supporting, monocoque coach work, similar in construction to that of a car – though much lighter. This gave the velomobile a sturdier construction without weighing it down. The suspension system introduced by the Alleweder was also inspired by automobiles. The bodywork of the original Alleweder is made from aluminum plates riveted together, a technique inspired by airplane builders.

With or without a roof

All velomobiles produced since then are based on the construction principles of the Alleweder. The only difference is that the bodywork no longer consists of aluminum but is made up of composites (like Kevlar). These materials are more expensive, but offer more freedom in designing the fairing, allowing for better aerodynamics.

Go one 3

Picture: the Go One 3.

A modern velomobile weighs between 24 and 40 kilograms, is about 250 centimetres long, 80 centimetres wide and 95 centimetres high. The three wheels have suspension and the bodywork has integrated rear view mirrors, head lights, indicators and (sometimes) brake lights. A velomobile also has a luggage compartment comparable to that of a sports car.

The present-day velomobile comes in two varieties: vehicles in which the head of the driver sticks out (like the Quest, the WAW, the Versatile, the Mango, the Velayo, and the Alleweder) and vehicles in which the driver is fully enclosed (like the Go-One, the Leiba, the Leitra, the Pannonrider and the Cab-Bike). In the case of a fully enclosed vehicle, part of the bodywork can be opened to get in and out. In a half-open velomobile, the driver enters and leaves via the hole where the head sticks through.

Velomobiles can have open or closed wheel arches. Closed wheel arches give better aerodynamics but they make the turning cycle larger and hamper the changing of a tyre.

P1010229

Picture: the Pannonrider (picture credit) has solar panels on the bodywork (wind power is another option!).

Fully enclosed velomobiles give the best protection against bad weather, of course, but they do carry a few disadvantages. The main problem has to do with ventilation. Even in cold weather, the driver may “overheat”. A body that delivers 200 watts, produces around 1000 watts of waste heat, which mostly escapes via the head. In a fully enclosed velomobile hearing and sight are also affected. The windshield can steam up or it can become opaque because of rain or snow (windscreen wipers are not an option on any velomobile, probably because of the extra weight that would be added by motor and battery).

Velayo2

Picture: the Velayo.

A fully enclosed velomobile thus needs an efficient natural ventilation system (which can happen via air intake in the nose of the vehicle). Some manufacturers have come up with a compromise. The WAW has a small optional roof with a ventilation system that can be manipulated from the inside of the vehicle. It can be quickly installed and it fits in the trunk when folded up. The Versatile also has a smart roof, bypassing the heat and ventilation problem while still protecting the rider from the rain.

Hase-bikes-klimax-2

Picture: the Hase Klimax.

The German manufacturer Hase recently presented a recumbent tricycle with a foldable fairing (and an electric assist motor). This is not a compromise between a fully or a semi-enclosed velomobile but between the latter and a normal recumbent trike – the most comfortable and aerodynamic option in warm weather.

Two-seaters

Recently, some two-seater velomobiles have appeared, such as the Bakmobiel (a cargo bike) and the DuoQuest. The essential idea is that occupants sit next to each other. It’s good to see that cosiness still beats aerodynamics.

Duo-quest-velomobile-5-1024x768

Another recent trend are velomobiles that have been especially designed to easily hop in and out of. The adapted design lowers weather protection and aerodynamics, but the result is still a more efficient bicycle at higher speeds, which comes in handy for shorter distances.

Are velomobiles too expensive?

The high purchase price is often mentioned as one of the largest obstacles for a breakthrough of the velomobile in the mainstream market. A fully equipped machine will cost you at least 5,000 euro (6,700 dollar) – considerably more than what you pay for a good quality bicycle. In the US prices have come down from a level twice as high, since now some of the popular Northern European brands are also produced in the States. Shipping a velomobile across the Atlantic is not cheap.

Haai1

Picture: the Quest.

The high price stems partly from the surcharge of a recumbent, but mainly from bodywork. Each velomobile is hand-crafted, with the fairing requiring the most work. It would of course be cheaper to produce velomobiles on an assembly line, especially when this would happen in a low-wage country. But even then – including social exploitation and extra environmental costs – nobody expects to see a velomobile sold for less than half the current price. Lightweight materials, crucial to make the technology work, just happen to be expensive.

CelticQuest

Picture: the Quest.

You can look at it differently, of course. A velomobile is more expensive than a bicycle, but it is cheaper than an automobile. Since the performance and the comfort are also in between that of a car and a bicycle, the price starts to look more reasonable. Moreover, a car requires fuel, and a velomobile doesn’t. Maintenance is limited to changing the tyres. Whoever changes his or her automobile for a velomobile is definitely making a economical decision. Governments could help overcome the purchase price by financially supporting velomobiles instead of electric cars and biofuels – at least their ecological gain is clear and they don’t need a completely new charging infrastructure.

Alternative to the automobile?

The most important obstacle for the velomobile is not the purchase price. It is the competition of the automobile. Although a velomobile can ride on a wide enough bicycle path, because of its larger dimension and higher speeds the vehicle is more suited for the road. The concept of the velomobile is sound as long as the vehicle does not have to share the road with automobiles. On current roads, piloting a velomobile would be relatively dangerous. Car drivers don’t always see you, and in spite of the many strengthenings in the bodywork you are very vulnerable against, say, a Jeep Cherokee.

Alleweder a6

Picture: the Alleweder.

A breakthrough in the velomobile thus requires either a completely new infrastructure for pedal power, or the substitution of velomobiles (and other human powered vehicles) for automobiles on the existing local and regional road system. The latter option, which I prefer, would not be conducive to car sales, but there is nothing or nobody that stops car manufacturers from producing velomobiles.

© Kris De Decker (edited by Shameez Joubert)

B’Twin – A Corporate Velomobile Future?

A couple of weeks ago I saw my first B’Twin branded bicycle.  It was a fairly typical and non-descript hybrid MTB style cycle being used on a British Seafront.  It likely would have gone unnoticed altogether, as just another Bike Shaped Object moving in the shadow of the ICE recumbent Trike and the elegant Pashley step through I also saw, had it not been for some news I should have reported on earlier this year.

This may be a bit stale by now, but I became aware of B’Twin through a report on Recumbent Journal (RJ): a US based blog covering all things recumbent, including velomobiles.  RJ reported on a design competition posted at the opensource automotive design community The Forge. The stated object was to design a velomobile that could be built for less than $2000 for a given set of criteria, and a winner was announced at the end of May 2012.

The particular merits of the RJ report was not the comment on the various designs, from which they largely refrained, but rather the nature of the company sponsoring the competition and what the implications might be for the future of velomobiles.

A collection of 4 Velomobile Concept Designs

From top to bottom:
Torkel Dohmers’ “ThisWay”
Adam Lazenby’s “Skua”
Tim Turrini-Rochford’s “NoVelo”
Speed Studio Design’s “Trik-e”

Design competitions and velomobile concepts are not new. Various individuals with industrial design skills or academic interest have produced concept designs, several of which are included in the upcoming Velomobile Database. In 2009 the excellent Bicycle Design Blog, with an interest in tapping the huge “blue ocean” of potential utility cyclists, organized a design competition which was won by a design with many velomobile features. Last year, 2011, Bicycle Design was mooting another similar competition.  The difference here is, that this is the first time a commercial organization has done so, putting up a prize of $7500. This is significant as commercial organizations exist to make money, and do so by selling products to a market that is willing to buy them. As RJ points out, the group behind the competition sponsor, B’Twin, is the french based Oxylane group. Oxylane produces a large range of, often innovative, sporting goods and is considered to be the largest sporting goods retailer in the world. The implication being, they see a market, and one sufficiently large enough form them to swim in, ready to be tapped.

The designs (see the winner and some finalists shown below) have many things that could be criticized not least the failure to achieve the desired price point. However as RJ points out the motive behind sponsoring such competitions is to help stimulate the internal design team that is working on the project in a place where there are the resources to refine the design to the desired level.

The apparent convergence of the designs on the same configuration adopted by the recently re-launched Drymer, (upright, head-covered, tilting, tadpole trike) is a fruit of the competition specification but it does offer clues on the corporate mindset  which tends to be constrained by focus groups and ideas largely confined to an existing paradigm.  Something not quite so far removed from a recognisable upright cycle with a bit of automotive protection and styling would probably be easier to sell from that perspective.

Photos of Feetz tilting Trike and Veltop weather covering on a cargo TrikeHaving said that, one can already put together a machine with many of the desired characteristics by combining the Feetz tilting trike (Their Old Website), now supplied by the Belgian velomobile manufacturer Fietser, with one of the weather coverings by the french manufacturer Veltop. All for less than €1954 (349.00 + 1500.00 + 105.00) including VAT which works out at something like $2400 or £1600 plus delivery to your chosen destination. I had a short test-ride on a Feetz from Cyclesense in Tadcaster few years back, and left with a positive impression. It would be somewhat of a Kludge compared to the entries below but if you exclude the VAT and shipping it would certainly come close to the $2000 target of the competition. The item I find the most challenging is the requirement for eAssist as this currently adds a significant amount of both weight and cost.

Winning Entry first:

Velocity Concept VelomobileUrban Velo Concept VelomobileUrban Trike Concept VelomobilevElomobile Concept DesignStride Concept Velomobile

Battle Mountain a week to go!

World Human Powered Speed Challenge 2012 PosterIn a weeks time an elite collection of racers, engineers and their supporters will be assembled in Battle Mountain, Nevada, USA.  Each will be attempting to break various current human powered speed records, even if only their own personal best from previous years.

This year is set to be of more interest than usual.  Not only will Sam Whittingham be defending his current 2009 record of 82.819 mph.  There is a very serious contender in the Dutch Universities of Deft and Amsterdam and their Human Power Team with VeloX 2, a significantly revised design of the the original VeloX they raced last year, and packed full of technology.  To round off the competition, outsider and celebrity Scotsman, Graeme Obree is attempting to not only break the current record but aspires to smash it!  In an echo of his 1993/94 hour records on an upright bike he is attempting to pass 100 mph on a prone, head first, bike he has designed and built himself.  It should be obvious that it is Graeme and his Beastie who are featured on this year’s Battle Mountain Poster.

There are some who are quite skeptical that 100 mph will be passed, especially on a first attempt, but none-the-less there are many who are rooting for the “Flying Scotsman” to do well.  A couple of articles give more detail, one from the Daily Telegraph and one from Road.CC.

A short video showing Sam’s record setting run from 2008 is shown below.

Below is a montage of clips from 2009 which should give an idea what SR305 will be like next week.

There is also a documentary being produced based covering the last three years at Battle Mountain called Human Power.  Production is expected to be finished sometime in 2013.  Mean time there are more videos available on Georgi Georgiev’s Varna Website, the designer and builder of the record breaking bikes.

The current list of race entrants is given on this page. And result will be published here.

Alligt, Jouta and the Sunrider Velomobile

Since taking over Sunrider Alligt has been busy developing and refining the design and build method.  Despite an external similarity there has been much changed “under the hood”.   Ligfiets.net has a brief article outlining the principal differences between the new and old versions and according to the comment by Jos Sluijsmans the new Sunrider 2.0 will be on display at the Velomobile Seminar later this week.

Jouta, whose own velomobile was covered in this year’s SPEZI report, now have their new website online.  In addition to their original front wheel drive delta trike and fairing they also report that they are very busy building sunrider velomobiles.  They say they are working hard developing a new type of sunrider.  It is unclear whether this is an independent effort or if it is being done in collaboration with Alligt.

Velomobile Crash Safety

Contrary to a popular misconception put forward by some, cycling is a safe and pleasant activity, it is not ordinarily a dangerous or extreme sport.  It should not therefore require a rider to don specialist protective clothing or equipment.  This can be amply shown from Holland where thousands (or is it millions?) cycle in everyday clothing without the dubious added safety of a cycle helmet and without any significant ill effects.

The velomobile, which enables a rider to go further and/or faster, often for less effort, due to it’s aerodynamic body, serves to extend this ideal.  As a side-effect, as it were, It also provides a substantial layer of protection in the rare event a rider is found in the path of danger.

David Hembrow, who himself rides a Mango velomobile, on his blog A View From the Cycle Path explains the reason why the Dutch cyclist is able to experience such safe and pleasant conditions.  Regrettably the standard of high quality segregated infrastructure has not yet arrived in most other countries.  It is therefore perhaps not surprising that the two case studies I was able to locate for this post were in Germany and the United Kingdom, where cyclists are regularly obliged to share the road, where and when, the risks for a high energy collision are much higher.

Front view of crashed Alleweder showing side impact damage.Firstly from Germany.  Jan P. Puchelt has a site dedicated to the Aluminum Alleweder in which he illustrates the protection benefit provided by a velomobile when hit by a motor vehicle and I quote below:

It’s obvious that crash tests like in the car industries are infeasible with the small-scale production of the Alleweder. So it is even more important to document any accidents that have happened with Alleweders involved. Helmut Kuske happened to have such an accident. He was driving on a cycle path alongside a country road when a car, which has ignored a stop sign at an entry, crashed sideways into his Alleweder A2. The car pushed him sideways across both lanes of the road. He was lucky that he sat in an Alleweder. Exept for an concussion and a few slight injuries he was not harmed! On a normal bicycle he probably would have been run over by the car and would have been heavily injured.

 

The front bulkhead has been massively distorted when absorbing the energy from the impact. But the rivet connection of the thin aluminium plates survived the crash
… the bodywork has been significantly distorted by the massive side impact. However, it has hardly been crushed. The driver has not been crushed in the Alleweder.

The second example was rescued from the now defunct velomobiling.com website and does not have any photo illustrations.  Tony Eastwood supplied an extensive report of a collision he experienced in 2004 in his home built velomobile in Wales, UK.

Coming up to Cae Afalau I’ll do a right hand bend at about 30 mph, a slightly gentler left-hand and then on to a great big open section that is one of my favourites. As I do the right hand bend I’ll really open up and hit my pedaling limit at about 35 mph – and it will be half-a-mile before I’m below 30 again. I look forward to a higher average.

 

I check the mirror for traffic behind me, there’s nothing. I get ready to take slightly higher line on the bend. A car, a black Fiat Punto, appears coming the other way. His back end swings out. I change my mind about the higher line on the bend and go for the kerb. The Punto oversteers, leaves the road, misses a telegraph pole and carries on spinning. He crosses the road towards me, broadside on it seems. I think I missed him – I’m wrong – he hits about a foot behind the front wheel. There’s a very short bang. I’m sliding along the road, I can’t see anything, something to do with the G force I think, but I’m still conscious. I come to a stop. I get easily out of the vehicle which is lying on its side – there is no roof any more, no wonder it’s easy. I’m alive, one of my elbows is wet and red but I’m alive, I can see, hear and still have all my limbs. For me life will still continue; I’ll still embrace my children, play the guitar, preach sermons. I’m euphoric – I look at my totally wrecked vehicle and and I’m still euphoric. I’m standing here alive, and well, and praising God’s providence in preserving me whole – I’ve just hit something at over sixty miles an hour and survived. My own vehicle saved my life – 8 years work gone in 1/20 of a second but I’d make the same bargain any time. The police man and ambulance man think so too – they are amazed, full of praise for the vehicle. It’s a wonderful accident – can you have such a thing? – I can simply walk away with just one small hole in my left arm, a reminder of what could have been.

 

No one else is hurt – the driver, a nice young man having his first accident, is terribly shocked but he’s OK. His car’s wrecked, my bike seems to have taken a lot off it and the wall’s done the rest. And that, I guess, is my last ride on a velocycle for some time. If I’m lucky the nice young man’s nice, kind insurance company will buy me a Leitra, Quest , or even pay for a replica – but as they say, the jury is still out.

He did replace his smashed velomobile with a Quest and supplied an impressive write-up which was published in Velovision Magazine Issue 25, March 2007.

Finally if any readers know of any other examples please share using the comments below.

Velomobiles – Good for your health?

One of the first examples I came across of velomobiles being put to practical use was in a back issue of Velovision Magazine. Having taken up a subscription in 2006 I began collecting all the back issues. The March 2006 issue 21 had the following article reporting on the Leitra velomobile being put to use by a number of German Doctor’s for home visiting.

The article entitled “Dr Leitra” is copied below.

Article "Doctor Leitra" from Velovision Magazine Issue 21 March 2006

A good example of practicing what you preach!