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| [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) | |
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+104wos koenich LeonardoMRF2 Rookie j. Zrt1200 motori49 F888 pagi Eric_91 Panas Charly polcat88 Adco Scalvo tenney andreas länström EDOUARD Jean flatart Peljhan RAW thankspipe op76 iizquierdo Fredrikgu fullgazlolo Virgil Tripp Vannik ReinanRacing carlovitch1 patouille taliesin Laci Institute of TwoStrokes tzrcarbonn Freitas_rt porttiming124 Döllinger freret alain ORC pascaltz GtG001 Iker alextatic marsheng Ken Seeber dutch Jseb89 uniflow crayou Jenco lvs 50cc Howell peter1962 Apriliabarth 41juergen fd-racing marlow Paul Olesen seattle smitty bentou Polux rsv jona2t LucF CVS alwoodman1 Maurice Specken pierre95 laranjateam Manuel Rainer Forgi Berglund alcatelko williamsmotowerx lodgernz jfn2 pfpraider Mks-Racing husaberg cassandre gab Toop Niels Abildgaard motoholic71 tjbw Phytus Howard Gifford yeahhim MANETON ktuningteam fpayart Al mach Rose Noire Bob van der Zijden Senne s Marc Piquer JanBros ambike Frits Overmars Jan Thiel Lef16 yesyes Dan42 108 participants | |
Auteur | Message |
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flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Mer 14 Nov 2018 - 23:08 | |
| - Frits Overmars a écrit:
- Your cylinder produces 7-9 hp at 11000 rpm with a blowdown time.area that is only 1/3 of what it should be for 11000 rpm (11000 / 3560 = 3,09), and the same is true for the power it produces at 11000 rpm; it makes perfect sense.
[smiley][Vous devez être inscrit et connecté pour voir ce lien] . Ciao Frits, I miss something. You say that angle area is 1/3 of what it should be (clear) and so also max Power is 1/3 of what it should be (clear) but how do you get that this engine with optimum angle area would give 21/29 HP @ 11000? Envoyé depuis l'appli Topic'it |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Mer 14 Nov 2018 - 23:19 | |
| I wrote something wrong: angle area is 1/3 of Ideal, but power is 1/3 of what it should be because of ratio rpm-real-max-power/rpm-AA-max-power (11000/3600)
Envoyé depuis l'appli Topic'it |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Mer 14 Nov 2018 - 23:35 | |
| - JanBros a écrit:
- Frits, in this drawing Blowdown is continuing a bit while the transfers are already open (as it is in real life), but I wonder if this has to be incorporated into calculations or not ? How much would you say on average (you are probably going to say "can not tell you, it depends on the preasure still left in the cylinder at TO).
taking measures from the drawing, it's about 2.6°. I can manage to re-create the RSA in my Excell meeting the STA for transfer with the data from the RSA drawings , but with loosing those 2.6° of the transfers, it would be impossible. Your 2,6° estimate is spot-on, Jan. The geometrical exhaust timing is 101° before BDC till 101° after BDC The effective blowdown timing is 95° before BDC till 63° before BDC The geometrical transfer timing is 66° before BDC till 66° after BDC The effective transfer timing is 62° before BDC till 64° after BDC The geometrical values are fixed; the effective values change with rpm. The higher the rpm, the more will the effective values deviate from the geometrical values. These deviations are established in the simulation software. In other words: I do not tell the sim what they should be; the sim tells me. Oh, the joy of a well-mannered sim . - Citation :
- You also said "our engines should meet the same STA's as the RSA" . Does this count for ALL/any engine or only for thermaly healthy high BMEP engines ?
Let's begin with saying that all engines should be as thermally healthy as the RSA. Only then can we think about meeting the other RSA qualities. Having said this, the specific time.area values are supposed to be universal. - Citation :
- I would think you'd say yes (on thermaly healthy high BMEP) , but am in doubt as less rev's gives higher STA., but less BMEP would require less A.A so levelling things a bit.
Lower revs give a longer port open-time during each revolution, so the actual time.area increases, although the required time.area should remain constant, which means, as you say, that the required angle.area can be smaller for lower revs. - Citation :
- Can one have to much transfer T.A.?
Yes you can, for two reasons. During the transfer phase the mixture flow through the transfer ducts accelerates as long as the crankcase pressure is higher than the cylinder pressure. After that, this flow is slowed down because the crankcase pressure has now dropped below the cylinder pressure. As soon as the transfer flow comes to a halt, the transfer ports should close; otherwise the pressure differential, helped by the rising piston, will reverse the mixture flow. The second reason that you can have too much transfer time.area is that you need sufficient blowdown time.area above the transfer ports. If the transfer ports are higher than they need to be, the exhaust port must also be higher than it would otherwise need to be.
Dernière édition par Frits Overmars le Jeu 15 Nov 2018 - 0:08, édité 1 fois |
| | | JanBros
Nombre de messages : 362 Localisation : Belgique Date d'inscription : 05/12/2011
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 0:06 | |
| Tnx Frits. so basicly : a standard Sky cylinder has to high transfer timings to produce max power at 8.000 rpm and I should lower them (and make them wider) Try explaining that to teenagers on their scooters |
| | | op76
Nombre de messages : 32 Localisation : Suomi Date d'inscription : 26/08/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 8:42 | |
| - flatart a écrit:
- I wrote something wrong: angle area is 1/3 of Ideal, but power is 1/3 of what it should be because of ratio rpm-real-max-power/rpm-AA-max-power (11000/3600)
Envoyé depuis l'appli Topic'it I think he meant, that if you had that STA matching RSA levels at 11,000rpm, you could assume that 29HP. Aprilia has about 59HP at crank @13,000, and it's 125cc. So that is about 36,3HP/1000cc/1000rpm. If one has 74cc, it should produce about 0,074*11*36,3=29,5HP @11,000rpm, IF it is as good and effective as RSA. |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 9:08 | |
| - op76 a écrit:
I think he meant, that if you had that STA matching RSA levels at 11,000rpm, you could assume that 29HP. Aprilia has about 59HP at crank @13,000, and it's 125cc. So that is about 36,3HP/1000cc/1000rpm. If one has 74cc, it should produce about 0,074*11*36,3=29,5HP @11,000rpm, IF it is as good and effective as RSA. thanks for your clear explanation, but what's STA????? |
| | | JanBros
Nombre de messages : 362 Localisation : Belgique Date d'inscription : 05/12/2011
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 9:32 | |
| Specific Time.Area it transforms the T.A of your engine into a universaly comparable number between different engines like BMEP.
it is T.A divided by the volume above BDC ( so cyl. + combustion chamber) multiplied by 1000; resulting in HP/1000cc/1000rpm |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 17:04 | |
| Ciao Frits, I have a very difficult question, for wich I think there is no exact answer. I know that you have no magic stick but at least you or someone else can tell me how far from reality I'm with my findings. I'm trying to write down the RSA pressure curve inside the cylinder, from the spark to ports opening. I know that it depends on a lot of factors but I'm interested just on the basic shape and some reference values. Some assumptions: full gas and max torque rpm. So I read somewhere that the peak-pressure should be arond 15/20° after TDC; I read somewhere else that this peak for RSA should be 65bar and I read somewhere else that at exhaust opening it's about 12bar. As far as the shape curve is concerned, I took it from a 2-stroke book. So this is my RSA-pressure curve in blue; in orange you can see the "resulting" pressure considering all the angles between piston, conrod, crankshaft: I mean the force with which the piston pushes down is proportional to the cylinder pressure, but this force when it's transmitted to the crankshaft has 2 components: one component is "radial" is trying to destroy crankshaft bearings (ironic); the other component is "tangential" and it's the one that we love because it produces torque. So the orange curve is considering the tangential component, I know that I'm mixing Pressure with force but they are proportional, so it's ok. I have calculated torque produced with orange curve doing some simplification, just considering 80° of pushing phase (exhaust open at 80 ATDC) and not considering the mechanical loss between 80 and 360° and I got about 30Nm that it's quite similar to 32Nm of max torque of the RSA, so it means I'm not so far.. Why I'm doing this exercize? I've tome to waste and I just want to better understand what's going on inside the combustion chamber and how this pressure is converteded in torque considering engine geometry. [Vous devez être inscrit et connecté pour voir cette image] |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 17:31 | |
| - flatart a écrit:
- Ciao Frits, I have a very difficult question, for wich I think there is no exact answer.
Flavio, the question is not difficult; the problem is posting the answer. I see no option for attaching text files, so the only solution seems to be dumping the pressure list right here. It shows the absolute cylinder pressure from BDC to BDC. The pressure history during open exhaust port is distorted, but the pressure data during closed exhaust port should be fairly accurate. The maximum combustion pressure is 124,7 bar @ 16° after TDC. .1553192 .1819933 .2086675 .2353416 .2620157 .2886899 .315364 .3420381 .3687122 .3953864 .4220605 .4487346 .4754088 .5020829 .528757 .5554311 .5821053 .6087794 .6354535 .6621277 .6888018 .7154759 .7421501 .7688242 .7954983 .8221725 .8488466 .8755207 .9021949 .9288689 .9555431 .9822173 1.008891 1.035565 1.06224 1.088914 1.115588 1.142262 1.168936 1.19561 1.222284 1.248959 1.275633 1.302307 1.328981 1.355655 1.382329 1.409003 1.435677 1.462352 1.489026 1.5157 1.542374 1.569048 1.595722 1.622396 1.649071 1.675745 1.702419 1.729093 1.755767 1.782441 1.809115 1.835789 1.862464 1.889138 1.915812 1.942486 1.96916 1.995834 2.022508 2.049182 2.075857 2.102531 2.129205 2.155879 2.182553 2.209227 2.235901 2.262575 2.28925 2.315924 2.342598 2.369272 2.395946 2.42262 2.449294 2.475969 2.502643 2.529317 2.555991 2.582665 2.609339 2.636013 2.662688 2.689362 2.749123 2.811325 2.876093 2.943555 3.013852 3.08713 3.163543 3.243259 3.326453 3.413313 3.504038 3.598842 3.69795 3.801606 3.910065 4.023604 4.142514 4.267112 4.397732 4.534731 4.678495 4.829436 4.98799 5.15463 5.329859 5.514223 5.708302 5.912718 6.128144 6.355296 6.594944 6.847925 7.115128 7.397508 7.696104 8.012017 8.34645 8.70067 9.076062 9.474103 9.896379 10.3446 10.82058 11.32629 11.86381 12.43538 13.04339 13.69036 14.37898 15.1121 15.8927 16.72392 17.60903 18.55141 19.55453 20.62192 21.75709 22.96352 24.24457 25.60333 27.04256 28.56457 30.17094 31.86242 33.63871 35.49807 37.43721 39.45081 41.53142 43.66889 45.8503 48.05958 50.27749 52.4814 54.64566 56.74171 58.73851 60.60363 62.80111 65.32521 68.16091 71.28336 74.65852 78.24346 81.98818 85.83744 89.73278 93.61511 97.42722 101.1155 104.6322 107.9366 110.9962 113.7866 116.2915 118.5025 120.4181 122.0427 123.3857 124.4604 124.7206 124.2303 123.0984 121.4243 119.2984 116.8008 114.0031 110.9675 107.7483 104.3924 100.9395 97.42342 93.87267 90.31075 86.75714 83.22768 79.735 76.28912 72.89774 69.56656 66.2997 63.09985 60.07553 57.23529 54.56703 52.05932 49.70148 47.4836 45.39634 43.43103 41.57956 39.83441 38.18856 36.63548 35.16916 33.78391 32.47453 31.23613 30.0642 28.95453 27.9032 26.90659 25.96131 25.06421 24.21236 23.40304 22.6337 21.90197 21.20564 20.54266 19.91109 19.30915 18.73515 18.18754 17.66483 17.16566 16.68875 16.23289 15.79696 15.3799 14.98072 14.59848 14.23233 13.88143 13.545 13.22234 12.91276 12.6156 12.33028 12.05621 11.40806 10.86002 10.37817 9.944427 9.547805 9.181016 8.838936 8.517795 8.214724 7.927478 7.654261 7.393608 7.144308 6.905341 6.675845 6.455076 6.242394 6.037238 5.839115 5.647591 5.462277 5.282827 5.108931 4.940306 4.776698 4.617875 4.463627 4.313758 4.168092 4.026465 3.888725 3.754734 3.624362 3.497487 3.373998 3.25379 3.136765 3.022833 2.911907 2.803907 2.698758 2.596388 2.49673 2.399722 2.305304 2.213418 2.124013 2.037039 1.952446 1.87019 1.790228 1.71252 1.637027 1.563712 1.49254 1.423479 1.356496 1.291562 1.228649 1.167729 1.108777 1.051767 .9966784 .9434862 .89217 .8427114 .7950888 .7492867 .705286 .6630707 .6226263 .5839376 .5469904 .5117712 .4782696 .4464712 .4163675 .3879471 .3612003 .3361177 .3126917 .2909145 .2707787 .2522774 .235405 .2201557 .2065248 .1945085 .1841011 .1753006 .1681042 .1625099 .158514 .1561184 .1553192
Dernière édition par Frits Overmars le Jeu 15 Nov 2018 - 21:31, édité 4 fois |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 17:42 | |
| Fantastico, grazie Frits. How ho you get such a detailed curve??!!
Envoyé depuis l'appli Topic'it |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 20:11 | |
| Flavio, here is some more documentation regarding gas pressure, inertial force, resultant force. and torque. Forces above the horizontal center line are pushing forces in the con rod; forces below this line are pulling forces. The blue horizontal line represents average torque during one crankshaft revolution. [Vous devez être inscrit et connecté pour voir cette image] |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 20:40 | |
| Frits these last infos Will take a lot of my time in the next days. Dont know how to thank you for sharing such info, it's like chatting with Einstein about relativiy, but 2 stroke is quite more funny, by far
Envoyé depuis l'appli Topic'it |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 20:57 | |
| - flatart a écrit:
- Frits these last infos Will take a lot of my time in the next days. Dont know how to thank you for sharing such info, it's like chatting with Einstein about relativiy, but 2 stroke is quite more funny, by far.
My pleasure, Flavio |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Jeu 15 Nov 2018 - 23:37 | |
| - Frits Overmars a écrit:
- Flavio, here is some more documentation regarding gas pressure, inertial force, resultant force. and torque.
Forces above the horizontal center line are pushing forces in the con rod; forces below this line are pulling forces. The blue horizontal line represents average torque during one crankshaft revolution.
Sorry can you explain what the inertial force in the graph stands for? Envoyé depuis l'appli Topic'it |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Ven 16 Nov 2018 - 0:23 | |
| - flatart a écrit:
- can you explain what the inertial force in the graph stands for?
It's the force that would be necessary to accelerate the piston from zero velocity in the TDC and BDC positions to its maximum speed, and to slow the piston down again when it is nearing the next BDC and TDC positions, when there is no compression or combustion pressure acting on the piston. Without this pressure, the con rod must pull the piston down from TDC until it reaches its maximum speed, then push against the piston until comes to a stop in BDC, keep on pushing until the piston reaches its maximum speed in the opposite direction on the next up-stroke, and finally pull at the piston until it comes to a stop in TDC again. This necessary force is dependent on rpm and on the total reciprocating mass of piston, ring, gudgeon pin, small end bearing and con rod. The table below shows the influence of different reciprocating masses. It compares the normal situation (white) with a situation where the reciprocating mass is doubled (red).
Dernière édition par Frits Overmars le Ven 16 Nov 2018 - 0:47, édité 4 fois |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Ven 16 Nov 2018 - 0:31 | |
| The ratio of crankshaft stroke to con rod length also has an influence on the inertial forces. Below is a comparison of the normal 120 mm con rod with a 60 mm con rod (in reality a 60 mm con rod could never be used because in BDC the piston would hit the crankshaft). |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Ven 16 Nov 2018 - 12:37 | |
| - Frits Overmars a écrit:
- Flavio, here is some more documentation regarding gas pressure, inertial force, resultant force. and torque.
Forces above the horizontal center line are pushing forces in the con rod; forces below this line are pulling forces. The blue horizontal line represents average torque during one crankshaft revolution.
these graphs really enclose so many infos that it will take days or weeks to get everything is hidden in them. The simplest one is that the greatest the inertial force (mass of crankshaft, flyweel and everything connected), the greatest will be the opposition to acceleration in the "pushing" phase (from TDC to EXhaust opening, 79° ATDC), but in the "not-pushing" phase (from 79° to TDC) the greatest will be the opposition to friction loss and also to pressure rising between exhaust closing and TDC (from 281 to TDC). So first problem: find the right compromise for crankshaft weight, flyweel weight etc... Obviously this can be done with dyno-test, I guess if there's a way to do some kind of calculations (I think everything is hidden in these graphs). curiosity: - considering an engine revving at a fixed RPM, how does the angular speed vary in one revolution of the crankshaft? I guess it accelerates between TDC and exhaust opening and decelerates in the remaining part of the revolution. But how much in %? just to have an idea... - have you ever tried a compression test on RSA engine with pressure gauge plugged in the spark-plug? I mean test usually done on old car egnines to check if compression is still good. What's the peak value you get on RSA cylinder? However after trying to go deeper in these topics I really do understand Thiel's empirical approach. |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Ven 16 Nov 2018 - 18:47 | |
| - flatart a écrit:
- considering an engine revving at a fixed RPM, how does the angular speed vary in one revolution of the crankshaft? I guess it accelerates between TDC and exhaust opening and decelerates in the remaining part of the revolution. But how much in %? just to have an idea...
The pictures below may help. They show the angular speed fluctuation and the crank angle fluctuation within one crankshaft revolution for 6500 rpm and for 13000 rpm (I used the same pressure history for the 13000 rpm situation and the 6500 rpm situation in order to exclude its influence. In reality the pressures at 6500 rpm would of course be much lower). You will notice that at 13000 rpm the fluctuations are much smaller than at 6500 rpm. The energy needed to accelerate the rotating masses within one revolution rises with the square of the rpm and this energy must be administered in a shorter period of time as the rpm rises. In other words: a high-revving flywheel can be much smaller than a low-revving flywheel and still bring about the same smoothing effect. - Citation :
- have you ever tried a compression test on RSA engine with pressure gauge plugged in the spark-plug? I mean test usually done on old car engines to check if compression is still good. What's the peak value you get on RSA cylinder?
No, we never did that. But I do use the contraption shown below for stationary leak tests, in order to see if the piston ring is still moving freely or pinched in its groove. Pressure is applied via the spark plug hole. Then you rotate the crankshaft until the exhaust port closes. If the piston ring is pinched, you can even establish on which side of the piston the pinching has happened, because the slanting con rod will push the piston against one side of the cylinder bore. If that is the side opposite the pinching, the piston ring will be lifted off the bore, causing a pressure leak. In case you are still curious about the result of a car-type compression test, we can perform a simple calculation. These tests are usually carried out with no more than 200 rpm, which means that the effective exhaust timing is about the same as the geometrical exhaust timing: from 101° before BDC till 101° after BDC. With a 54,5 mm stroke and a 120 mm con rod length this means an exhaust port height of 29,4 mm. With a 54 mm bore, the cylinder volume above the exhaust port is 54*54*PI/4 *(54,5-29,4) = 57,485 mm³ = 57,5 cc. The combustion volume is 8,6 cc, so the compression ratio above the exhaust port is (57,5 + 8,6) / 8,6 = 7,7. The pressure in the cylinder is 1 bar absolute. According to the gas law for adiabatic compression, which states that pressure * volume^1,4 is constant, we find that the compression pressure will be 17,4 bar. |
| | | carlovitch1
Nombre de messages : 1109 Age : 58 Localisation : Pays Catalan Date d'inscription : 20/05/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Sam 17 Nov 2018 - 20:29 | |
| Good evening Frits, Thanks again for your high level contributions. I'm sorry I have a certainly lower level question: I'm actually building a vintage MX bike 50cc based on a Minarelli P6 engine long stroke (38,8 x 42mm). I have a Gilardoni cylinder with 180° exhaust timing and 130° transfer, which does not look so bad. But this is only a 3 transfers cylinder and when I calculate the angle.areas and the subsequent max torque rpm, I find only about 9500 rpm (fortunately both blowdown and transfer are aimed to the same rpm). The intake equivalent diameter is 26mm, and exhaust is about the same. I have a 28mm carb, and I need to build the pipe from scratch. I know aircooled engines with piston-port itake are not your cup of tea, but what would you recommend as the best guideline direction to build my pipe? Should I try to match the 9500 rpm for max torque, or should I try a compromise with a slightly shorter pipe that would also match with the 28mm carb? |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Sam 17 Nov 2018 - 21:10 | |
| - carlovitch1 a écrit:
- Good evening Frits,
Thanks again for your high level contributions. I'm sorry I have a certainly lower level question: I'm actually building a vintage MX bike 50cc based on a Minarelli P6 engine long stroke (38,8 x 42mm). I have a Gilardoni cylinder with 180° exhaust timing and 130° transfer, which does not look so bad. But this is only a 3 transfers cylinder and when I calculate the angle.areas and the subsequent max torque rpm, I find only about 9500 rpm (fortunately both blowdown and transfer are aimed to the same rpm). The intake equivalent diameter is 26mm, and exhaust is about the same. I have a 28mm carb, and I need to build the pipe from scratch. I know aircooled engines with piston-port itake are not your cup of tea, but what would you recommend as the best guideline direction to build my pipe? Should I try to match the 9500 rpm for max torque, or should I try a compromise with a slightly shorter pipe that would also match with the 28mm carb? Carlo, I assume the inlet on your vintage engine is piston-controlled. If you can keep the inlet timing down to no more than 160°, a 28 mm carb should be able to function. You might also try varying the inlet length between carb and cylinder in order to adapt the power characteristics for MX use. Forcing the engine to run at a higher rpm than the angle.areas permit, by means of a shorter pipe, will probably give less power, reduce its reliability and cause an engine character that is unsuitable for MX. |
| | | carlovitch1
Nombre de messages : 1109 Age : 58 Localisation : Pays Catalan Date d'inscription : 20/05/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Sam 17 Nov 2018 - 22:26 | |
| Thanks Frits for your quick answer ! I have 162° inlet timing, but this is due to a cut I increased at the bottom of the piston skirt, I will use another piston and cut less, and also build my pipe for the 9500 rpm. Thanks again ! |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Sam 17 Nov 2018 - 23:40 | |
| - Frits Overmars a écrit:
In case you are still curious about the result of a car-type compression test, we can perform a simple calculation. These tests are usually carried out with no more than 200 rpm, which means that the effective exhaust timing is about the same as the geometrical exhaust timing: from 101° before BDC till 101° after BDC. With a 54,5 mm stroke and a 120 mm con rod length this means an exhaust port height of 29,4 mm. With a 54 mm bore, the cylinder volume above the exhaust port is 54*54*PI/4 *(54,5-29,4) = 57,485 mm³ = 57,5 cc. The combustion volume is 8,6 cc, so the compression ratio above the exhaust port is (57,5 + 8,6) / 8,6 = 7,7. The pressure in the cylinder is 1 bar absolute. According to the gas law for adiabatic compression, which states that pressure * volume^1,4 is constant, we find that the compression pressure will be 17,4 bar. I did the calculation for my engine and I get 13,5bar and doing compression test with pressure gauge I have 12 bar. I guess the difference is due to the fact that piston and piston Rings are not perfectly hermetic. So even if I had the same perfect ducts efficiency or RSA (just a dream...) pressure inside my cylinder would be 77,5% of RSA cylinder pressure (13.5/17.4). I think I can say with great aproximation that pressure is about 50% of RSA cylinder. Grazie Frits Envoyé depuis l'appli Topic'it |
| | | Frits Overmars
Nombre de messages : 2639 Age : 76 Localisation : Raalte, Holland Date d'inscription : 12/10/2010
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Dim 18 Nov 2018 - 1:02 | |
| - carlovitch1 a écrit:
- Thanks Frits for your quick answer! I have 162° inlet timing, but this is due to a cut I increased at the bottom of the piston skirt, I will use another piston and cut less, and also build my pipe for the 9500 rpm. Thanks again!
162° inlet timing might still work, so you could try with the present piston first. And when you fit the new piston, you could try shortening it in small steps, for example 3° at a time. That way you will learn a lot. - flatart a écrit:
- Frits Overmars a écrit:
- According to the gas law for adiabatic compression, which states that pressure * volume^1,4 is constant, we find that the compression pressure will be 17,4 bar.
I did the calculation for my engine and I get 13,5bar and doing compression test with pressure gauge I have 12 bar. I guess the difference is due to the fact that piston and piston Rings are not perfectly hermetic. So even if I had the same perfect ducts efficiency or RSA (just a dream...) pressure inside my cylinder would be 77,5% of RSA cylinder pressure (13.5/17.4). Piston and piston rings are never 100% hermetic, as you say; this is one reason for the difference between the measured pressure and the calculated pressure. There is also a second reason. Above, I used the formula for adiabatic compression (pressure*volume^ 1,4 is constant) which assumes that there is no heat being transferred into or out of the gas during the volume change. But the compression raises the gas temperature, and some of this heat will be transferred to the surrounding metal. You can compensate for this heat loss by using a lower coefficient, for example 'pressure*volume^ 1,35 is constant'. With your compression ratio of 6,42 above the exhaust port that would give a compression end pressure of 12,3 bar. The shape of the transfer ducts has no influence whatsoever on the static compression measurement of a two-stroke engine because the in-cylinder pressure is 1 bar absolute, until the exhaust port closes and the compression begins. |
| | | carlovitch1
Nombre de messages : 1109 Age : 58 Localisation : Pays Catalan Date d'inscription : 20/05/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Dim 18 Nov 2018 - 8:02 | |
| [quote="Frits Overmars"] - carlovitch1 a écrit:
- Thanks Frits for your quick answer! I have 162° inlet timing, but this is due to a cut I increased at the bottom of the piston skirt, I will use another piston and cut less, and also build my pipe for the 9500 rpm. Thanks again!
162° inlet timing might still work, so you could try with the present piston first. And when you fit the new piston, you could try shortening it in small steps, for example 3° at a time. That way you will learn a lot. OK, thanks again Frits, I will do so. I have another cylinder that may fit, and it has 188° exhaust timing and no significant increase in transfer angle.area (I measured it at 131° instead of 130 for the exact same area). Thus the blowdown angle.area is aimed to a significant higher rpm than the transfer (somewhat 12000 rpm versus 9700). The point is that I cannot increase the transfer area or very little otherwise I will have the piston ring locating pin going inside of it. Do you think it is usable? |
| | | flatart
Nombre de messages : 28 Localisation : Italia Date d'inscription : 03/10/2018
| Sujet: Re: [GP125] All that you wanted to know on Aprilia RSA 125, and more, by Mr Jan Thiel and Mr Frits Overmars (PART 5) Dim 18 Nov 2018 - 11:40 | |
| - Frits Overmars a écrit:
The shape of the transfer ducts has no influence whatsoever on the static compression measurement of a two-stroke engine because the in-cylinder pressure is 1 bar absolute, until the exhaust port closes and the compression begins. Yes I know, I didnt mean cylinder static pressure but pressure during combustion. This depends on static compression and on the quantity of fresh charge available for combustion. The latter depends on ducts efficiency to fill the cylinder. So if RSA peak pressure is 124bar, in my cylinder might be around 60bar (great aproximation) while I can assume that the shape of pressure curve is the same (again great aproximation) Envoyé depuis l'appli Topic'it |
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