Final few days and the Virgin Challenge

After assembling and correcting various items on the reconstruction I am at last approaching completion. I just hope that my engineering skills, puny as they are, have accomplished the required quality of build which will allow the various bits to react as planned. My main fear is that if one or more of the mechanisms fails to operate, it will bring the wheel to a halt, or worse, stop the wheel from turning at all. I understand the basic principle behind the wheel's actions and the design fulfills the principle, but there are still one or two variables which may or may not affect the running of the wheel.

If this model fails it won't be because the design is wrong, it will be entirely due to my poor workmanship. This is going to be a hard thing to prove and if I can't build it myself then I am going to have to find someone to help me. I have already had several offers but I am going to await the results of the first test run which should happen in the next two or three days or so, before deciding on the best course of action.

What action that might be is open to question. I am still being urged to forward details of how the wheel works to an American professor who has been encouraging me for some years. I am willing to go that route provided there is some assurance that I won't be side-stepped and my ideas buried. I had thought of trying to get the Virgin Challenge interested but apparently they are after something far more exotic, i.e. "Does your technology sequester greenhouse gases from the atmosphere?"

It seems to me that they are reaching for something that will be beyond the power of human intervention for many years to come - on the other hand a device which generates electricity at no cost and completely cleanly is something to be greatly desired. I realize, of course why they will ignore me - until I produce the goods, gravitywheels fly in the face of science as we understand it - or so they believe.

JC

Construction, composition and update

This is a brief update, because I have so many things going on at the moment.

I have been unable to do much work on my reconstruction recently, although things are looking more promising next week. Hopefully I can get some way towards finishing it. I have had numerous emails asking for clues about the principle behind my wheel and I have not revealed anything yet, however some people may be interested in having some of the details about the construction itself, now that it is nearing completion.

It is built with 40 moving parts, plus several swivel posts and stops all mounted on an MDF backplate or disk, which is only two feet in diameter. The axle is a threaded rod, held in place by two heavy nuts and washers and the whole thing rests in two plastic cup-shaped bearings which were originally designed to hold central-heating pipes to the walls. There is a little friction but not enough to stop the wheel turnng easily, and anyway the wheel is designed to do work so a little friction should not be a problem for the proof-of-principle demo. I've used two kinds of material for the parts, mostly mild steel but some GRP.

I acquired an old set of meccano parts but I have found that they are proving awkward to accomodate in the design, partly because this model is so small (my fault!) and partly because they are old, bent and buckled, (sounds like me) and the fiddly nuts and bolts are too small for my large and arthritic fingers! I am using alternatives that seem to be ok.

40 moving parts may seem like a lot but when you consider the number of parts composing a number of mechanisms and weights it's not so much. The basic principle which, I believe, lies behind the successful operation of the wheel is simple but it is something I have never heard or seen described. The only clue about its operation which I can give is to quote Bessler himself who said something along the lines of, 'I found it where everyone else had looked'.

I have a deadline of three weeks for completion.

JC

Bessler's wheel the solution to global warming?

It might be thought that I am only concerned with building a copy of Bessler's wheel and not with what might happen with it afterwards. Nothing could be further from the truth. I see this device as offering the best solution to global warming and saving the planet. How might this be done?

I was reading an article about maritime emissions - it seems that the world's shipping is emitting double the amount of CO2 the aviation industry emits and yet they are not covered by the Kyoto accord, so there's no cap on how much they can emit..

Separate studies suggest that maritime carbon dioxide emissions are not only higher than previously thought, but could rise by as much as 75% in the next 15 to 20 years if world trade continues to grow and no action is taken. The figures from the oil giant BP, which owns 50 tankers, and researchers at the Institute for Physics and Atmosphere in Wessling, Germany reveal that annual emissions from shipping range between 600 and 800m tonnes of carbon dioxide, or up to 5% of the global total. This is nearly double Britain's total emissions (we are the 7th worst polluter in the world) and more than all African countries combined. And yet we are warned about the effects of such carbon emissions from aircraft and the virtues of carbon credits are extolled. How come shipping has escaped censure?

It has always seemed to me to be a remote possibility that Besslers wheel might somehow be encapsulated within an automobile to provide free, clean transportation - it is much more likely to be used to charge the batteries of an all electric car. But a complete impossibility, I think, to place such a device in an aircraft, but what about ships?

These enormous container ships and of course the mighty supertankers, have huge amounts of space within their hulls to place giant besslerwheels. Could they be engineered to provide sufficient power to drive these leviathans of the deep?

Motor vehicles are one of the biggest source of atmospheric pollution, contributing an estimated 14% of the world's carbon dioxide emissions, a proportion that is steadily rising, but electricity generation is responsible for 40 percent of all CO2 emissions.

So, we could, in theory, cut almost 60% of global CO2 emissions by simply using Bessler's wheel to drive ships and charge up electric autos and to generate domestic electricity. A pipe dream? Maybe, maybe not.

Bessler's wheel is real; it does not conflict with the laws of physics; it will be a major contribution to saving the planet from the excesses of global warming.

I am continuing to work at the reconstruction and I hope to have it finished soon. Recent calls on my time have prevented me from finishing the prototype but it should be ready soon - I hesitate to predict a finishing date since things have a habit of spoiling one's plans but I do recall placing a bet that it would be ready before 2009 is out. It should be much sooner than that, but in any case I know there are others in this race who are as confident as I, so all being well, one or more of us will cross the finishing line in the very near future so we shall have Bessler's wheel within weeks.

JC

Proof of principle device almost finished

It has been suggested that as I am nearing completion of the reconstruction of Bessler's wheel that I should write something every day, detailing my progress, however I think I would bore my readers to death with the minutiae of my daily construction efforts. Having said that perhaps it might help some of you to understand why it is taking so long to finish what seems, on the face of it, a relatively simple thing to complete, if I describe my latest problems which have led to this delay.

I have made a new set of mechanisms in new material and when moved by hand they perform as designed, but it's still difficult to get the actions perfect and I have to keep altering the way things are arranged, not because the design doesn't work, but to get the various pieces to work together without either missing each other entirely, or getting entangled and locking together. It is surprisingly difficult to transfer a design which is both in one's mind and on paper into a practical reality. Everything works as it should do when moved by hand, but then you find that under its own steam, so-to-speak, or rather gravity, the levers are either too close and bump into each other, or too far apart so that an engagement designed to occur, misses! There is some flexibility in the levers giving rise to too much lateral movement. But if I tighten them down to limit the lateral motion, they become stiff and don't move easily. I may have to add some kind of lateral bracing to support them unless I can produce a proof of principle (POP) wheel without further delay.

I have found that by altering the order of the pieces I have eventually achieved the best arrangement. The order can be changed throughout the depth of the mechanism, by that I mean, not the plan view, but the sideways elevation. It doesn't alter the way the mechanism works but it does improve and free-up the action.

I had fitted five mechanisms to the backplate but as they were unable to move properly and freely, due to entanglement, I have rearranged them and three are now fitted and working as designed. The remaining two will be done as soon as I can get into the workshop again. On some days I only get ten or fifteen minutes in my workshop and sometimes none at all.

I am doing this on a shoestring, as I always have done, just to make a POP machine, but I have seen estimates of money spent on prototypes, posted on various forums, and I am surprised at how much people spend, because I have spent no more than about £100 (about $160) in the last ten or maybe even fifteen years of modelmaking! I have to admit that some of the models shown are amazingly well engineered, rugged-looking and most impressive, but I suspect I could have built half a dozen rough and ready models in the time it takes to build just one high quality one. In the end we only require a working model to prove the principle, however roughly constructed. Once that has been achieved then a high quality product based on the original design can be built.

And another thing; people often describe the high quality bearings they use to reduce friction but I worry little about friction, as long as there is enough energy to turn the wheel continuously against any friction that is all that is needed. My axle is a threaded rod and it rests in a couple of plastic copper plumbing pipe wall supports screwed to two upright pieces of wood. Cost was less than a pound for a pack of five.

JC