1、This document is available at Seminar ReportQuasiturbine Future Trends in Automobile Engine ByPRADHAN KALPESH HEMANT (B.E MECHANICAL)N.D.M.V.P.S.s COLLEGE OF ENGINEERINGGANGAPUR ROAD, NASIK - 422013 INDIAkalp_pr13 kalpeshpradhanJanuary 2006ABSTRACTThe inventors have made a systematic analysis of eng
2、ine concepts, their value, their weaknesses, and their potential for improvement. All improvement ideas converged when they suggested making a turbo-shaft turbine having only one turbine in one plane. In order to achieve that, the inventors had to attach the turbine blades one to another in a chain
3、like configuration, where the rotor acts as compressor for a quarter of a turn, and as engine the next quarter of a turn. This is the Quasiturbine! Many researches are going on to increase energy efficiency on the long term with piston, hydrogen, fuel cell. Hybrid concepts are ways to harvest part o
4、f the low power efficiency penalty of the piston engine used in vehicle, but counter-productive measures limit the long term perspective until they could efficiently fuel from the electrical grid. None of these solutions are short term stable and competitive.The Quasiturbine in Beau de Rocha (Otto)
5、cycle is a relatively simple technology which could be widely used within a few years with substantial efficiency benefits over piston engines in many applications. Large utility plants convert energy more efficiently than small distributed units and should be favored when possible, but on the long
6、term, the Quasiturbine detonation engine (AC model with carriages) is one of the very few means to match utility efficiency the distributed way, while being as chemically clean as possible.By opposition to dozens of new engine designs, the most important at this time about the Quasiturbine is the fa
7、ct that it does unknot a new field of development and offers means to achieve what no other engine design has suggested or is able to, and specially for detonation where piston engine has failed for over 40 years.INDEX What is Quasiturbine? How it works? How does it turn? Why is the Quasiturbine Hyd
8、rogen Engine superior to conventional IC engine? Advantages of Quasiturbine Applications of Quasiturbine Conclusion References What is Quasiturbine?The Quasiturbine (Qurbine) is a no crankshaft rotary engine having a 4 faces articulated rotor with a free and accessible center, rotating without vibra
9、tion nor dead time, and producing a strong torque at low RPM under a variety of modes and fuels. The Quasiturbine design can also be used as an air motor, steam engine, gas compressor or pump. The Quasiturbine is also an optimization theory for extremely compact and efficient engine concepts How it
10、WorksIn the Quasiturbine engine, the four strokes of a typical cycle de Beau de Rochas (Otto) cycle are arranged sequentially around a near oval, unlike the reciprocating motion of a piston engine. In the basic single rotor Quasiturbine engine, an oval housing surrounds a four-sided articulated roto
11、r which turns and moves within the housing. The sides of the rotor seal against the sides of the housing, and the corners of the rotor seal against the inner periphery, dividing it into four chambers. Quasiturbine combustion cycle Intake (aqua), Compression (fuchsia), Combustion (red), Exhaust (blac
12、k). A spark plug is located at the top (green) As the rotor turns, its motion and the shape of the housing cause each side of the housing to get closer and farther from the rotor, compressing and expanding the chambers similarly to the strokes in a reciprocating engine. However, whereas a four strok
13、e piston engine produces one combustion stroke per cylinder for every two revolutions, the chambers of the Quasiturbine rotor generate height combustion strokes per two rotor revolutions; this is eight times more than a four-strokes piston engine. Because the Quasiturbine has no crankshaft, the inte
14、rnal volume variations do not follow the usual sinusoidal engine movements, which provide very different characteristics from the piston or the Wankel engine. Contrary to the Wankel engine where the crankshaft moves the rotary piston face inward and outward, each Quasiturbine rotor face rocks back a
15、nd forth in reference to the engine radius, but stays at a constant distance from the engine center at all time, producing only pure tangential rotational forces.The four strokes piston has such a long dead time, its average torque is about 1/8 of the peak torque, which dictate the robustness of the
16、 piston construction. Since the Quasiturbine has not dead time, average torque is only 30% lower than the peak torque, and for this reason, the relative robustness of the Quasiturbine need be only 1/5 of that of the piston, allowing for an additional engine weight saving. Why does it Turn? This diag
17、ram show the force vector in a Quasiturbine when one or two opposed chambers are pressurized either by fuel combustion, or by external pressure fluids. Because the pressure vectors are off center, the Quasiturbine rotor experiences a net rotational force. It is that simple! Quasiturbine as an Immine
18、nt SolutionMany researches are going on to increase energy efficiency on the long term with piston, hydrogen, fuel cell. Hybrid concepts are ways to harvest part of the low power efficiency penalty of the piston engine used in vehicle, but counter-productive measures limit the long term perspective
19、until they could efficiently fuel from the electrical grid. None of these solutions are short term stable and competitive.The Quasiturbine in Beau de Rocha (Otto) cycle (Model SC without carriages) is a relatively simple technology which could be widely used within a few years with substantial effic
20、iency benefits over piston engines in many applications. Large utility plants convert energy more efficiently than small distributed units and should be favored when possible, but on the long term, the Quasiturbine detonation engine is one of the very few means to match utility efficiency the distri
21、buted way, while being as chemically clean as possible. QT-AC (With carriages) is intended for detonation mode,where high surface-to-volume ratio is a factor attenuating the violence of detonation.By opposition to dozens of new engine designs, the most important at this time about the Quasiturbine i
22、s the fact that it does unknot a new field of development and offers means to achieve what no other engine design has suggested or is able to, and specially for detonation where piston engine has failed for over 40 years. Why is the Quasiturbine Hydrogen Engine superior to conventional IC engine?Pis
23、ton DeficienciesPiston engine deserves respect and should not be arbitrary and globally condemns. However it has deficiencies that no one seems to be willing to list? Here is our list of the main conceptual piston engine deficiencies: The 4 engine strokes should not be of equal duration. The piston
24、makes positive torque only 17 % of the time and drag 83 % of the time. The gas flow is not unidirectional, but changes direction with the piston direction. While the piston descents, the ignition thermal wave front has hard time trying to catch the gas moving in that same direction. The valves open
25、only 20 % of the time, interrupting the flows at intake and at exhaust 80 % of the time. The duration of the piston rest time at top and bottom are without necessity too long. Long top dead center confinement time increase the heat transfer to the engine block reducing engine efficiency. The non-abi
26、lity of the piston to produce mechanical energy immediately after the top dead center. The proximity of the intake valve and the exhaust valve prevents a good mixture filling of the chamber and the open overlap lets go some un-burnt mixture into the exhaust. The non-ability of the piston to efficien
27、tly intakes mixture right after the top dead center. The piston does not stand fuel pre-vaporization, but requires fuel pulverization detrimental to combustion quality and environment. The instantaneous torque impulse is progressive, and would gain to have a plateau. The components use factor is low
28、, and those components would gain to be multifunctional. The average torque is only 15 % of the peak torque, which imposes a construction robustness for the peak 7 times the average. The flywheel is a serious handicap to accelerations and to the total engine weight. The connecting rod gives an obliq
29、ue push component to the piston, which then requires a lubrication of the piston wall. The lubricant is also heat coolant, which requires a cumbersome pan, and imposes low engine angle orientations. The need of complex set of valves, of came shaft and of interactive synchronization devices. The valv
30、es inertia being a serious limitation to the engine revolution. The heavy piston engines require some residual compressed gas before top dead center to cushion the piston return. The internal engine accessories (like the came shaft) use a substantial power. The poor homo-kinetic geometry imposes vio
31、lent accelerations and stops to the piston. Complete reversal of the flows from intake to exhaust. Quite important noise level and vibration. At low load factor, the intake depressurization of the Otto cycle dissipates power from the engine (vacuum pump against the atmospheric pressure). Without bei
32、ng pretentious, the fact is that the Quasiturbine corrects or improves each of these deficiencies.Side by SideLike the piston engine, the Quasiturbine is a volume modulator of high intensity, and acts as a positive displacement engine. Here is a diagram showing the Piston and the Quasiturbine side b
33、y side. Quasiturbine may compare 1 to 1 by displacement, but 1 to 8 by total intake fuel-mixture volume and power, because the chambers are used 8 times more often by revolution.Better torque continuity and acceleration (exceeds even the 2 strokes engines): The crankshaft and the flywheel are the ma
34、in obstacle to engine acceleration, and since the flywheel are unable to store energy at low rpm, the engine torque at idle is highly handicapped by the engine dead times. The piston of a 4 strokes engine works in power mode about 120 degrees / 720 degrees (2 turns), and thus constitutes a drag 80 %
35、 of time, period during which the flywheel assumes a relative torque continuity. The Quasiturbine has jointed torque impulses, and presents a profile of almost flat torque characteristics, without the assistance of a flywheel (Quasiturbine torque continuity would compare to a 16 or more pistons conv
36、entional engine).Low revolution - Reduction of gearbox ratio: The gear boxes are evils necessary (expensive, complicated, delicate, and energy consuming). The RPM required by the human activity are generally lower that the performance optimum speed of the engines (e.g.: an automobile wheel generally
37、 does not rotate to more than 800 or 1000 RPM, which is 4 to 5 times less than the engine RPM). As the Quasiturbine turns 4 to 5 times less quickly than the other engines (including the Wankel), the gear boxes can often be removed (amongst other things in the field of transport) with an increase in
38、efficiency. Continuous combustion with lower temperature: As the Quasiturbine strokes are jointed (what is not the case with the Wankel), the lighting is necessary only in launching, since the flame transfers itself from one chamber to the following. The thermalisation of the Quasiturbine by contact
39、s with rollers (Model AC) is more effective, and prevents hot point. From the thermal point of view, the Quasiturbine does not contain any internal parts requiring coolant fluid (like oil). Better overlaps: The intake and exhaust ports being at different ends of the combustion chamber, it is possibl
40、e to do a better filling of the chamber by having a simultaneous open overlapping of the two ports, without risking that a portion of the intake gas goes into the exhaust, as it is the case with the piston engine.Power DensityHere is a table comparing engines (order of magnitude only) on the basis o
41、f same combustion chamber volume and same rpm.Quasiturbine model of series AC (with carriages)Same chamber displacement, same rpm.High power density engine: The Wankel is already known as a high power density engine. At comparable power, the Quasiturbine presents an additional reduction of volume. I
42、ntegrated into a use, the density factor is even more impressive (no flywheel, less gear box ratio, optional central shaft.). Because of its quasi-constant torque, the use factor of the intake and exhaust pipes is 100 % (still better than the Wankel), implying tubes of smaller dimension, etc. Same d
43、ynamic power range than piston engines: Just a word to recall that the conventional gas turbines are conceived for a precise aerodynamic flow, and do not offer a wide power range with reasonable efficiency. For its part, the Quasiturbine does not use aerodynamic flow characteristic on the blades, an
44、d keeps its excellent efficiency on a wide power range. It is the same when the Quasiturbine is propelled by steam, compressed air, or by fluid flow (Plastic Quasiturbine for hydro-electric centrals, etc).Same range of nominal power: As the piston engines, the Quasiturbines can be made tiny or huge.
45、 Due to concept simplicity and the absence of gears, the small units should be still more tiny than piston engines or Wankel. On the other hand, nothing limits the construction of huge Quasiturbines like for ship power, fix power plan stations, or large Quasiturbines for thermal power plan or nuclea
46、r, using steam or hydraulic.EfficiencyMore effective conversion into mechanical energy: Engines that use crankshaft generate sinusoidal volume impulses during which the piston stays a relatively long time at the top while it decelerates and reverses direction, and stays briefly at mid-course, which
47、is contrary to the logic of a better engine (Compression impulses should be as short as possible, and the stay at mid-courses the longest possible for a better mechanical energy extraction). On the other hand, the Quasiturbine is more effective because it has less engine accessories to operate (no v
48、alve, rocker, push rod, cam, oil pump.). In addition, the piston engine suffers from the symmetry of the back and forth piston movement. Ideally, the piston should have a longer displacement for the expansion (extracting the most possible mechanical energy), and smaller for the admission, without reduction of volume. The Quasiturbine has this asymmetry by compressing the mixture in
浙ICP备2021020529号-1 | 浙B2-20240490 
