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Visualization / Re: New 4 stroke engine
« Last post by Feliks on May 11, 2015, 06:11:45 AM »
This relatively large Aerodynamics effect on the exhale, it also has a huge impact on a new air intake, and "flushed" from the remnants of exhaust gas cylinders. Therefore for me, I assumed (a total of just happened) that the opening of "valve" suction is up by 360 degrees of rotation of the main shaft.

Now this: Minimum diameter of the intake of the engine is a cross-section of the suction cylinder. Including the minimum cross-section do not open the windows intake, because we can also be the other side of the head cut, which in total, with such a large opening angle will give about 30% higher intakes surfaces, than the surface of the cylinder intake .Therefore, the engine prototype, I thought that windows will have only one side ..

Here it is a drawing, illustrating that the diameter of the cylinder intake, relative to the diameter of the main piston is not much different. That's what we see is certainly the biggest proceed to the cylinder surface. Even with all Slide timing gears which have so far been built, such a large cross-section did not. I think that the speed of the intake air does not exceed the speed of the main piston plus some 20%, for a total even in high-performance engines is a value of about 40 m / s.

Now this issue .. The air cargo, which is sucked into the cylinders, it can be dynamically connected, and it is also of high efficiency, because, how to open the inlet port, is also violent, because it occurs in a maximum piston speed suction. Also any rebound cargo back to the suction pipe, are impossible, because the plunger suction its downward motion and prevents and quickly closes the inlet, so that everything already must remain in the cylinder, without any loss caused by the retreat of the cargo to the intake ducts .. Here, the more you can read a dynamic supercharger.

The result is everything, a very significant improvement for filling the cylinder .. I used a prototype of its dual carburetor from BMW 2002 Tii, Solex type PHH40. Originally, the cylinder BMW of 500 cc, which is very close to my static volume to my engine displacement ..
Now yes, the nozzle main fuel in the BMW, is 1.35 (mm) .. After many attempts, I was in your engine nozzle .... I now have 0.80 mm, and it is only correct so hundereds unexpected fuel ratio flowing Air ..Z these values ​​can be converted more draws how many times my cylinder in relation to the cylinder BMW ....
It follows that about even 3 times more .. And it was the biggest surprise for me .. it's really that much different from the predicted values ​​..
I have two cylinders in its prototype, which is 1.5 engine BMW 2002 Tii ... and I shoot their 10,000 revolutions per minute ..

Therefore, pomomo difficulties in the design of this engine so far, you have to go down this road, because we have several superior performance possible to achieve.
Visualization / Re: New 4 stroke engine
« Last post by Feliks on May 01, 2015, 12:57:49 PM »
Therefore, as there are many things that are completely different than in the previous engine, including exhaust stroke has completely different properties.  So, yes..

The figure shows the engine exhaust stroke my .. It is known that during the exhaust stroke is always pressure within the cylinder is larger than atmospheric pressure (external) Plurality this pressure depends on many factors, but you can say that maybe it's even 1/10 of an average medium pressure May be work .. And now readily appreciate that this pressure-assisted movement of the main piston, also interacts sucking pistons and exhaust. Their return the direction of movement, is the right and from the pressure produce as additional force to the crankshaft (timing) If you noted that the force on the piston suction (bigger) is nearly the maximum length of the crank shaft, despite the fact that the pressure is not large, and added to the torque shaft will be relatively considerable ...
Now yes. Cor- opening "valves", it is here a completely different, than in conventional valves takes place .. Traditional valve (poped) opens slowly at first, because they must be overcome forces of inertia of the whole mechanism of the drive .. In my opening "valves" is the maximum piston velocity of the exhaust, which causes very rapid opening of the exhaust port. On-built prototype, the sound when you open this window, is dramatically large, as a result of this, high-speed opening .. That is why we will have here to deal with quite different phenomena on the exhale, or the like, but supersized strength of the effect of expiration. All the resonance effects are several times stronger, candles and blowing the cylinder during the co-opening "valve" suction, it is several times more efficient .. So clean air in the cylinder is much larger, and the same quantity also .. Here the problems are podzcas in the exhaust stroke a conventional engine .. Now we will have to re-examine it ..

Andrew   :)
Here a wiki. also might be useful in understanding my engine ..
Visualization / Re: New 4 stroke engine
« Last post by Feliks on March 27, 2015, 06:10:54 PM »
So, now the next data to compile the chart engine efficiency. In general, we already know that the speed of propagation of the flame is forced mechanically and is ooło 3 times faster than the normal combustion chamber of the engine a traditional ... and it's not due to excessive compression ratio or samozapłonów. This will certainly much smaller heat transfer to the cylinder, because almost the entire load burn in a very short period of time, and no chronic burning will not be .. By this it will raise the overall efficiency significantly .. Of course, you can see that the temperature of any element in the whole "combustion chamber" will not be higher than 250 degrees Celsius ~~, because these elements are all well-chilled water or oil from the other side of the pistons. This causes the conditions to raise up to 16 compression engine with spark ignition.

It's generally about how to combustion within the engine. I call it dynamic combustion chamber ..

Now subsequent items that have a huge impact on the formation of the huge torque. In this photograph of the first prototype, drew czewone strzaki that are to illustrate any shaking or vibration of coupling chain wheels. But what were the findings? Well, such that any noticeable vibration and chains was not extremely stable work. The only change was to change the side on which the lower string tension was .. When starting the pacemaker, was tightened one side, and the other was loose. After starting the engine are put on the side opposite the chain tension, which clearly indicated that the upper pistons "drive" lower piston and add to the torque. If so you can see, it means that it is not taken none the power to drive Switches, which the conventional engine is about 10% of the power masymalnej .. Of course, when loaded engine, say, only 30% of this power that gets this timing, it is about 30% of that secondhand power. It goes mostly to the drive spring, which does not depend on the amount of power that produced by the engine. In my engine, this loss does not, and apparently still does the torque ..

Another reason for such a large increase in torque is tkaki fact. The minimum compression chamber is depending on the settings, but ~~ 15 degrees after TDC main piston. when there occurs to accomodate the maximum pressure, then we do not at 0 degrees and zero-mm crank arm, but at 15 degrees and a crank arm is now up to 9 mm. That is nine times more theoretically .. So much of thick when it comes to the main piston.
But the greatest curiosity, is that the frame of the smallest piston (exhaust) while, when it is the smallest volume of the combustion chamber is about 70 degrees on its GMP, and works on the frame of the crank shaft of his size until about 23 mm !!
And despite the fact that this is the smallest piston, it gives the largest increase in torque, because surely it rotates two times slower than the main .. In total torque arrives at least twice as much as in a conventional engine ..
Now I begin to know why I got such a good performance ..
One thing is certain .. all these can not be depending on the traditional by placing the PV diagram ..

Andrew :)
Visualization / Re: New 4 stroke engine
« Last post by Feliks on March 22, 2015, 07:19:34 PM »
Abarth engine picture here and mine. size comparison...

Optrand has the press-release of their agreement with Bosch in their news section. Be nice to know about anyone's field experience with either.
Visualization / Re: New 4 stroke engine
« Last post by Feliks on March 03, 2015, 06:31:42 PM »
Now why I summoned Riccardo..Ricardo developed fairly firebox V-Comet .. Especially in diesel played a significant role - helped make a high speed diesel engine .In my also applied the swirl chamber, knowing about its merits. The eyebrow appearances, this is what you see on the animation, this is not the combustion chamber. It is only the cross section through the center of the engine combustion .Komora., At the rear, with the cross-sectional view as seen in the picture, it is a channel connecting the piston "sucking" piston "exhaust". Flows this way the entire load of fuel and air, but it achieves a very high speed, which in the initial attempts resulted in taking ionized air from between the spark plug electrodes and prevented the formation of spark .Only after a magnification of this channel, began to develop a spark. If sweeping spark plug, this place was a diesel injector, it would be very beneficial ,, because after falling into the space above the small pistons with a very high speed, it would be very intense spin and excellent mixing of fuel and air. I think it is possible to build a high speed diesel, well, up to 10 000 RPM. Also on gasoline this spinning is beneficial and Ground your walls on the smallest piston, is probably the smallest of the previously used, and the heat losses are the smallest .Also at such a high speed of rotation of the smallest piston samozapłonów foci formation will be very difficult. Apart from this place, burning virtually runs elsewhere, because the distance between the planes must be greater than two millimeters in height, so that there could arise a flame. In total combustion occurs with forced intensive centrifugation only over a small piston in the cylinder least .. This is the very Riccardo improved swirl chamber, with the movement of loads in one direction and forced mechanically great speed of combustion. Looking only at the same animations, we are not able to notice it all properly. Today on the combustion chamber.

Andrew :)
Visualization / Re: New 4 stroke engine
« Last post by Feliks on February 22, 2015, 12:43:34 PM »
In othe Forum ..

Quote Originally Posted by 1946 View Post
Looking at your project and in my opinion it would require a huge amount of R&D and plenty of money and time to develop this to a final stage, but in the result perhaps only competitive with the current available valve driven engines, but not superior ./Quote

Of course, in the world there is nothing perfect ...
Of course, this requires a lot of research has to capture as optimal according ...
Of course, the need for a lot of money, so that when these tests do not die of hunger, because they must take a while ... and some good programming specialists have to pay .. High flexibility to engineers had a good tool for the design of this engine. Because proper design of this engine is its biggest engineering challenge bo after his execution is much simpler than the traditional performance of the engine. Therefore, the phase of design is the most important, but the engineers do not know almost nothing about the new design. Even such a simple thing as the calculation capacity of displacement and compression ratio requires the use of a computer program. But I have already done such a simple program to count the cubic capacity ..after having any data substitution.

Even I, despite the fact that I am the designer of this engine, when defining the objectives of the second prototype, I was wrong, and it's in a very mean, what the real possibilities of the engine ..
I assumed that it will have 100 hp at the 10 000 cycles. ... And it has to be satisfied with me, because colleagues using the traditional model from the same manufacturer, tuning it to the races, received about 70 hp ..
After completing the research, I found out that my engine is up to 2.5 times more power than I assumed ... because it has 250 hp at the 10 000 cycles. Impossible, it turned out possible
But I know that I discovered that you can not run this power, because the primary basis proved to be the engine too weak, the use of such parameters. I am writing this to the next prototype was performed on these operational parameters of his power.
Therefore, do not I'm surprised how skepticism May to the engineers from the engine, because he too was such a skeptic as to the possibilities of this engine. But the reality proved to be a good site, as much as two and a half times greater than expected. I wanted to say that during the test, how are learned about these surprising performance, nearly occurred for some serious accident and almost lost my life ..
However, as it turns out, my engine has a much better performance, low timing slide gate motors,. Now you can imagine. if we lose, on the traditional motor engine. Therefore, talking about the fact that only can be competitive, it is wrong, but because it turned out that two and a half times more competitive .. So worth it fast this way .. Besides, there are many other, real competitive advantages of the new engine.
Leave aside the issues of efficiency, variable compression that are obvious.
Even, it turned out that the sound coming from the engine mechanical part is the sound originates only from the traditional timing mechanism of the engine. Mindful of my observations, I maintain, with 95% of the sound mechanical four-stroke engine, comes only from his timing mechanism ... what with the 10 000 cycles is a good noise. For me there is only s, s. s ,,

Well, the most important thing is the reliability of the solution .. Well, for example, you can safely skip head gasket, by performing the block from one piece. As you know, head gasket is a very frequent case of failure of the conventional engine, other parts of the timing mechanism failures are often .które sometimes cause complete destruction of the engine.
So that the second great advantage of this unbeatable new engine is much less sage, unmatched susceptibility to failures ..

Yes, from my view, it pays to, and it's very invest your time and money, because all in all, this is a very, very competitive solution in comparison to conventional engine. I was already convinced of it, and I share with you all ..

Regards Andrew  :)
Visualization / Re: New 4 stroke engine
« Last post by Feliks on January 25, 2015, 03:58:02 PM »
Well, the thing that you need to get started. First, maybe you had to draw a new pressure-volume diagram for the new 4 stroke .. Of course, assuming there any sense of its dimensions, say like my second prototype .. It may, however, first count, we define physical fitness of the new engine. Swiss physicist Daniel elegant describe efficiency:

Valve crakshaft ,rods, pistons, cranks, rotation twice more slowly than main cranksshaft. And consequently inertia and is four times smaller, since she depends on the square of the rotation speed.Significantly increased volume intake to engine.

As it can be summarized in the graph P / V ?. This, unfortunately, I do not know. Please have any tips, but solutions can be many, and graph P / V Does not include a reduction in the forces of inertia, and thus sucking larger quantities of air ..
A has a significant impact on the efficiency of this engine .. Certainly we can say that there is a lot bigger .. just as far as estimated even?

There are still two graphs, which complicates things rather traditional graph P / V.
Especially the offset by a few degrees, and 360 deg..

As seen from these graphs, they are related to each other, looking at a means of opening the exhaust valve. which in total can also be moved ..
It follows that the minimum 3D chart should be made ... and it's already complication ..

maybe as much as at the beginning  ;)

greets Andrew ;D
Visualization / Re: New 4 stroke engine
« Last post by Feliks on January 15, 2015, 08:09:18 PM »
Maybe now, after this introduction, a number of technical changes to the basic four-stroke engine, it falls to explain why it is so difficult to implement it goes public-use, despite that everyone sees, on the animation of it is very simple technology.
So it presents it as I see it, after nearly forty years of dealing with this new engine.
wic, everyone, even I did not even suspected that the technical parameters of the new engine, and so very different from the well-known principles and possibilities of the traditional engine
Let's say that this knowledge, which enables us to build, it seemed highly optimized for him to four-stroke engines is 100%
Here chronologically describe how within these years, my knowledge New4stroke deepened.
1. Making and the launch of the first of my prototype (thesis) is about 12% acquisition of new knowledge about the new engines lasted about trzylata yo, and confirmed that there is a possibility of such a system, without some fundamental flaws (no vibration, for example, some large) Only 12% I'm thinking of new knowledge, no more. (as I see it from the perspective of 40 years ..)

2.Na due to optimistic news, I decided to build a second prototype, because I made an important next invention - output beyond the outline of a cylinder with a "valve" This has opened many new opportunities, but also no design problems, for example, to calculate the same displacement, which without the help of a computer, it was impossible only a few basic options. But the result of this calculation, it was with turned out that the engine can have a variable compression ratio, with the help of the shaft angular change "timing for the main shaft had to wear an Obviously there any fixed dimensions of the proposed engine. And even though there are a few million combinations, changes in diameter, rod length, stroke the shaft of each of the three pistons, distribution etc each other. this project had not., but in total at the end of the design phase, my knowledge new4stroke, expanded by about another 25%

So my knowledge already has 12 + 25 = 37%

Design and execution of the launch of a full prototype lasted three years

3. when you start the prototype, I have acquired the necessary knowledge of the rest of the utmost importance .. Well, for example, ionization, which prevented a spark, because the speed of Glow between the electrodes was as resulted from the calculations about 1 Mach .. (!!). This, and other messages, which surprised me very much, for example, the actual amounts of air intake really, meant that I bought the next 20% of the new brand, the fundamental knowledge about new4stroke

So we already have 37 + 20 = 57% of the new knowledge.

4. Now the excellent work of the second prototype, I started a few years jescze accurately analyze, and refine designs, Well, for example, a project receiving power at the shaft "timing" and not from the shaft głónego ..
Also the actual combustion chamber is in fact the smallest space of the piston only, causing a very small surface. elsewhere flame front does not move with, due to the very small gap between the pistons. Besides being forced direction of the path of the flame, and it's very intensively with a large force. Ishi is called by me "dynamic combustion chamber."
It certainly adds the next 20% of the new knowledge .. That sum is 57 + 20 = 77%
  So many completely new knowledge about the engine should possess to be able to take advantage of all the amazing real advantages of the new engine.

Also to be rejected as much knowledge of the current science, because, if one wishes so sensational assure as parameters.
Therefore, the traditional doctrine now used, does not allow us to accomplish more than is generally known now.
  Following this totally new way, it requires a lot of time and money probably ... but there is no other way ...
Now you are ready for this?

greets Andrew :)
Visualization / Re: New 4 stroke engine
« Last post by Feliks on December 26, 2014, 01:12:47 PM »
Here the F1 forum reprint. Starting in the construction of my second prototype, I had only the experience of operation of the first prototype. As it turned out it was very little. Then founded, with the second prototype will have 100 hp with 600 ccm To me it would be a good parameter, as it is only 2 prototype. Described here as it is learned that the received power is as much as two and a half times larger than I expected. Seemingly, it seemed impossible, but the reality is verified and in a good site, in a very a significant way, the normal constructor was not able to foresee. Then I began to wonder, whence until such a big difference and it's a plus. And slowly I deduced that it is possible, however, and you have the next prototype for such parameters to prepare. Of course, it's all you can get, but you have a lot to learn about a completely new engine to learn ..

"" Exactly the same I thought how you were advising me .

Yeah so so: when he already switched the engine on, I started selecting for him main nozzles fuel. And here surprise. From the proposed scope I will put any nozzle (110 - 190), the engine behaves very strange.
Practically didn't react to moves with the throttling valve. When closed, had 3200 Rpm, when open on maximum throttling valve had 3600 Rpm . !!!!

I did these attempts one week and nothing, farther is ignoring throttling valves.
Whats doing??
I thought, around at such violent opening oneself of out port and very blare, an out arrangement can play a significant role .

In next 3 weeks I made "doctorate" in exchausts .

I noticed, that at the determined length of outlet pipes, the engine worked on different rpm. For example 35 cm long pipe he had 4000 turnovers, at the length 70 had the cm 3200 rpm. And of course farther ignored throttling valves completely. These turnovers set him lengths of an exhaust pipes .This work for all mains jets (110- 190).

Using cones prctically not change. Little change rpm 3400 to 4000 rpm .Thats all.

One day, instead of to switch the engine off electrically, stand by it and I bent with hand leading the tube fuel to the carburettor, since I thought that he would burn fuel down in the chamber of the carburettor and he won't spill for me they at the next exchange nozle.But for facilitating these experiments I fastened the throttling valve permanently open, behind the help of the screw .
And when I kept the pipe this way blocked with fuel, suddenly the engine went in to some 10 000 rpm (throttling valve maximum switched on). Very much I got scared, but I understood that all the time the engine had a too big main fuel nozzle.

What nozzle you know on did the engine start delicious working properly? On 80 !!
Orginal BMW 2002 ti have nozle 135. Sqare 80 x 80 =6400 , sqare 135 x 135 = 18225
It's exactly 3 more .

Namely one cylinder of my engine is sucking so much air as 3 bmw 2002 ti cylinders ~~ 1500 cm^3 !! Bmw 2002ti has at 6200 rpm 110 hp .
It would mean that my engine has 110 x 1,5 = 165 hp.
And at 10 000 rpm about 260 hp!!!!


Merry Christmas
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