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Three-dimensional measurements of mixture motion in the cylinder of an I.C. engineParsi, Mohammad January 1989 (has links)
No description available.
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A Thermodynamics Based Model for Predicting Piston Engine Performance for Use in Aviation Vehicle DesignHighley, Justin L. 02 April 2004 (has links)
Advances in piston engine technology, coupled with high costs of turbine engines have led many general aviation manufacturers to explore the use of piston engines in their smaller vehicles. However, very few engine models are available to analyze piston engine performance. Consequently, designers using vehicle synthesis programs are unable to accurately predict vehicle performance when piston engines are used. This thesis documents the development of a comprehensive, thermodynamics based performance model that meets that need.
The first part of this thesis details the basics of piston engine operation, including component geometry and the four stroke engine cycle. Next, the author analyzes the critical components of engine performance, including engine work and power. In developing the engine performance model the Ideal Engine Cycles are discussed. The cold air and fuel-air working fluid models are discussed, along with the types of combustion models, including the Otto Cycle, Diesel Cycle, and the Dual Cycle.
Two performance models are generated using the Constant Volume Ideal Engine Cycle: an Ideal Gas Standard Cycle, and a Fuel-Air Cycle. The Ideal Gas Standard Cycle is useful for parametric analysis but lacks the accuracy required for performance calculations. The Fuel-Air Cycle, however, more accurately models the engine cycle and is selected as the basis for the computer program.
In developing the computer program the thermodynamic charts used in the Fuel-Air Cycle calculations must be reproduced. To accomplish this, the NASA Chemical Equilibrium Application (CEA) program is integrated into a parent VBA based computer code to provide thermodynamic state point data. Finally, the computer program is correlated to the performance of an existing aviation engine to validate the model.
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MANIFOLD AND PORT DESIGN FOR BALANCED FLOW AND INCREASED TURBULENCE IN A TWO-STROKE, OPPOSED PISTON ENGINEJames C Rieser (11818853) 18 December 2021 (has links)
<p>Two-stroke, opposed
piston engines have gained recent attention for their improved thermal
efficiency relative to the conventional inline or V-configuration. One advantage of two-stroke, opposed piston
engines is a reduction in heat losses since there is no cylinder head. Another advantage is improved gas exchange
via uniflow scavenging since the exhaust and intake ports may be located near
bottom dead center of the exhaust and intake pistons, respectively. One challenge with the design of two-stroke
engines is promoting turbulence within the cylinder. Turbulence is important for mixing air and
fuel in the cylinder and for increasing flame speed during combustion. </p>
<p>This work investigates
the flow and turbulence through two-stroke, opposed piston engines using
computational fluid dynamics (CFD). Specifically,
the role of intake manifold and intake port geometry on turbulence within the
cylinder was investigated by systematically modifying the engine geometry. Turbulence was then quantified using three
metrics: circulation around the cylinder axis (swirl), circulation normal to
the cylinder axis (tumble), and volume average turbulent kinetic energy (TKE)
within the cylinder.</p>
Increasing the swirl angle from 0 degrees to 10 degrees
increased the in-cylinder swirl by a factor of 3. Increasing the swirl angle also increased the
volume average TKE by a range of 7.6% to 36.5% across the three cylinders of
the engine. A reverse tilt angle of 15 degrees
increased tumble circulation near the piston face but decreased tumble
circulation by a factor of 3 near the center of the cylinder. The next step for research on this would be
to apply more geometric manipulations to the manifold of the swirl engine
design to balance the mass flow rate for each port. Following the redesign of the manifold the
next step is to perform a dynamic CFD test to verify the mass flow has been
balanced under a dynamic scenario.
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Návrh teplárny s pístovým parním motorem. / A proposal of power plant with steam engine.Peterka, Lubomír January 2010 (has links)
The final thesis deals with the heating plant with piston steam engine design according to heat consumption background in the location of Velky Karlov and with the design of a heating scheme including its explicit parameters. Further on it deals with the possibilities of the heating plant output regulation and with the solution of natural gas and biomass heating plant operations aside the heating period.
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Návrh energetických systémů využívajících vodík jako palivo / Design of Energy Systems Using Hydrogen as FuelSlováček, Adam January 2012 (has links)
The subject of diploma thesis is to gather knowledge in the production and use of hydrogen. This work is devoted to a comparison of the previously existing processes for producing hydrogen, where the vast majority is filled of fossil fuel. Another section is devoted to new materials for the study based on a number of selected patents and the experiment promising new method for decomposition of water. Based on available data will be carried out energy balance and consequently will be drafted energy system using hydrogen as fuel. In conclusion will be future possibilities evaluated in the field of hydrogen energy.
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Možnosti konverze dvoumotorového pístového letounu Beechcraft B60 Duke na turbovrtulový / Conversion possibilities of piston twin engine Beechcraft B60 Duke aircraft into prop-jet aircraftSkládal, Zdeněk January 2010 (has links)
Master’s thesis deals with the issue of a conversion of a twin-engined piston aircraft Beechcraft B60 Duke into turboprop engines Walter M601 or Pratt & Whitney Canada PT6.The paper focuses on a financial analysis of conducting of the conversion, resources needed for a certification, authorization for the traffic in the Czech Republic and determination of the rate of return on investment.The thesis further deals with elaborating of the flight and prerformance characteristics, operation costs of both of the proposed engines and compares them with current characteristics and operation costs.
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Paroplynová elektrárna s spalovacími motory / Combi-Cycle with piston engineKubik, Martin January 2012 (has links)
The scope of this diploma thesis of focused on processing and calculation of the technological scheme for combi-cycle power plant with piston engine using heavy fuel oil. There are analyzed demands of piston engine for HFO and design of technological process preparation. This thesis analyzes the suitable locations, service options and alternative solution - heating plant with piston engines. Benefits of each option are assessed in the economic model, assuming power as a source of base load and providing support services. The results are intended to assess feasibility of the investment project.
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Zážehový pětiválcový hvězdicový letecký motor / Petrol five-cylinder radial aircraft engineDonutil, Jan January 2019 (has links)
This thesis deals with configuration of radial five-cylinder engine with attention to crank mechanism. Covered topics are motion of crank mechanism with articulated connecting rod, force analysis and balancing of inertial forces. The second part discusses FEM analysis and calculation of safety factor of selected component.
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Zástavba pohonné jednotky LYCOMING do letounu Bristel UL / Installation of the LYCOMING power unit into the Bristel UL aircraftKročil, Petr January 2020 (has links)
This diploma thesis focuses on Lycoming drive unit mounting used in two-seater plane of VLA category (the very light aircraft). In the beginning characteristics of currently produced Bristell aircrafts are described. Following chapters aim at research selection of new drive unit mounting based on multi-criteria decision analysis. For selected unit, the weight, center of mass and flight performance are calculated. Additionally, the construction of engine mount is proposed. According to CS-VLA and CS-23 stress level of mounting is defined followed by strength verification. Later in this thesis, a suitable engine cover for engine and cockpit cooling is proposed. A complete fuel system is described in following chapter. Last chapter deals with financial costs of re-engining as well as aircraft operational costs.
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Pohonné ústrojí čtyřválcového řadového zážehového leteckého motoru / Powertrain of four-cylinder in-line gasoline aircraft engineNovák, Vít January 2020 (has links)
The focus of this work is to determine the stress of the crank mechanism of the inverted piston aircraft engine Walter Mikron III C UL from the manufacturer PARMA - TECHNIK, s.r.o. The main method of calculation is the numerical finite elements method using the program ANSYS Workbench, the module Static structural and Transient structural. The approximate indicated cylinder pressure during the duty cycle was determined in the GT-SUITE software. The partial goals are to propose possible modifications in the construction of the crank mechanism and to state the possible power reserves of the engine. The diploma thesis also briefly summarizes the history and development of aircraft piston engines from the company Walter, which developed the engine, and the line of Walter Mikron engines.
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