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Numerical simulation of plasma-assisted combustion of methane-air mixtures in combustion chamber 被引量:3
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作者 Jun DENG Liming HE +1 位作者 Xingjian LIU Yi CHEN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第12期75-85,共11页
A two-dimensional mathematical model was developed to investigate the effects of dielectric barrier discharge (DBD) plasma on CH4-air mixtures combustion at atmospheric pressure. Considering the physical and chemica... A two-dimensional mathematical model was developed to investigate the effects of dielectric barrier discharge (DBD) plasma on CH4-air mixtures combustion at atmospheric pressure. Considering the physical and chemical processes of plasma-assisted combustion (PAC), plasma discharge, heat transfer and turbulent were simultaneously coupled into simulation of PAC. This coupling model consists of DBD kinetic model and methane combustion model. By comparing simulations and the original reference's results, a high-accuracy of this model was validated. In addition, the effects of PAC actuation parameters on combustion characteristics were studied. Numerical simulations show that with an inlet airflow velocity of 10 m s-1, a CH4-air mixtures' equivalence ratio of 0.5, an applied voltage of 10 kV, a frequency of 1200 kHz, compared to conventional combustion (CC), the highest flame temperature rises by 32 K; outlet temperature distribution coefficient drops by 2.3%; the maximum net reaction rate of CH4 and H20 increase by 11.22% and 12.80% respectively; the maximum CO emission index decreases by 14.61%; the mixing region turbulence mixing time reduces by 89 ms. 展开更多
关键词 dielectric barrier discharge plasma-assisted combustion combustion chamber numerical simulation
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Effect of Swirl Preset Vorticity on Combustion Performance of Lobe Nozzle Combustor Chamber
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作者 WANG Lijun JIANG Jintao +2 位作者 YUAN Weiwei MEN Kuo XU Yijun 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2019年第5期828-837,共10页
To improve the combustor performance of multi-point injection combustion,lobe nozzle design was applied to the aero-engine model combustor,by presetting the swirl through a certain twisted angle of the edge of the lob... To improve the combustor performance of multi-point injection combustion,lobe nozzle design was applied to the aero-engine model combustor,by presetting the swirl through a certain twisted angle of the edge of the lobe outlet.Numerical simulation in combination with modelling test is used in this paper.The effects of swirl vorticity presetting onto the vortex structure,the characteristics of combustion temperature field,the combustor exit temperature field quality,the combustion efficiency,and the NOx emissions of multi-point injection combustion chamber are investigated.Compared with the conventional vortex flow at the lobe outlet edge,the results of numerical simulation and water modelling test of the swirl vorticity presetting show that the swirl presetting can efficiently enhance the range and intensity of the lobe-induced vorticities.Besides,it can improve the uniformity of the combustion temperature in the combustor chamber,together with the reduced emissions of the pollutant NOx.Moreover,compared with the conventional lobe nozzle chamber,the swirl vortex presetting can effectively improve its combustion performance.The flow simulation test results demonstrate the fluid vortex structure in the combustion chamber and validate the simulation results. 展开更多
关键词 LOBE NOZZLE vortex structure multi-point injection combustOR chamber combustion performance combustion characteristics
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Application of Reaction-Bonded Silicon Carbide in Manufacturing of Spacecraft Combustion Chamber
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作者 CHEN Ming-he, GAO Lin, ZHOU Jian-hua, WANG Min (College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics & Astronautics, Nanjing 210016, China) 《厦门大学学报(自然科学版)》 CAS CSCD 北大核心 2002年第S1期2-,共1页
Silicon carbide (SiC) ceramics is a good structural ceramics material, which have a lot of excellent properties such as superior high-temperature strength up to a temperature of 1 350 ℃, chemical stability, good resi... Silicon carbide (SiC) ceramics is a good structural ceramics material, which have a lot of excellent properties such as superior high-temperature strength up to a temperature of 1 350 ℃, chemical stability, good resistance to thermal shock and high abrasion resistance. The silicon carbide ceramics material has so far been used widely for manufacturing various components such as heat exchangers, rolls, rockets combustion chamber. Sintering of ceramics structural parts have many technological method, the reaction-bonded is one of important sintering technology of ceramics structural parts. The preparation of reaction-bonded silicon carbide (RBSC) is based on a reaction sintering process, whereby a compacted body of α-SiC and carbon (graphite) powders is heated in contact with liquid silicon or gas silicon, which impregnates the body, converting the carbon (graphite) to β-SiC which bonds the original alpha grain. This process is characterized by low temperature and a short time sintering, and being appropriate to the preparation of large size and complex-shaped components, and so on. Besides, during compacting process of reaction sintering, it can maintain a stable dimension of ceramics parts. Therefore, the method of reaction-bonded silicon carbide ceramics has been identified as a technology suitable for producing complicated and highly exact dimensions’ ceramics parts. In this paper, the method of reaction-bonded silicon carbide was applied to the manufacturing of a complex-shaped spacecraft combustion chamber of SiC ceramics. SiC and carbon powder of 4~30 μm were chosen as the raw materials, green compacts containing appropriate wt.% carbon were formed using the mold press method, sintering was performed in a graphite electric furnace under an argon atmosphere. It was introduced in detail that the technological parameters and technological flow of reaction sintering silicon carbide ceramics. At the same time, physical and mechanical experiments such as bending strength, coefficient of thermal expansion, coefficient of thermal conductivity, gastight property, heat resisting property etc. have been carried out. The results demonstrated that spacecraft combustion chamber made from reaction sintering of silicon carbide ceramics is feasible and the results of experiment is satisfactory. The strength of high-temperature structural parts made by reaction sintered SiC varied with silicon content; Under the this article testing condition, the optimum silicon content is 10.5% for the part investigated. The method of reaction sintered SiC ceramics is suitable for manufacturing of complicated spacecraft parts with a working temperature of 1 500 ℃. 展开更多
关键词 silicon carbide ceramics SPACECRAFT combustion chamber reaction bonded
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Fundamental Laws of Physics and Calculation of Heat Transfer in Combustion Chambers of Gas-Turbine Plants
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作者 Anatoly Nikolaevich Makarov 《World Journal of Engineering and Technology》 2017年第3期358-375,共18页
The laws of heat radiation from black body, the laws of Stefan-Boltzmann, Planck, and Wien are fundamental laws of physics. All in all, a little more than 30 fundamental laws of physics, studied by pupils and students... The laws of heat radiation from black body, the laws of Stefan-Boltzmann, Planck, and Wien are fundamental laws of physics. All in all, a little more than 30 fundamental laws of physics, studied by pupils and students worldwide were disclosed. Scientific disclosure of fundamental laws influences mainly power technology, fuel and energy resources saving. In the late XIX century the laws of heat radiation from gas volumes and the laws of Makarov were disclosed. Since the radiation laws from blackbody are fundamental laws of physics, then the laws of heat radiation from gas volumes are fundamental laws of physics. Effect of using laws of heat radiation from gas volumes on fuel saving, reduction of development pressure on the environment in many countries of the world is shown. Calculation results from heat transfer in combustion chamber of gas-turbine plant are described. The torch in a combustion chamber is modeled by cylindrical gas volumes. Fluxes data from the torch and convective fluxes of cooling air are confirmed by measuring data from chamber-wall temperature. 展开更多
关键词 PHYSICS Scientific Discovery LAWS NOBEL PRIZE Heat Radiation Gas VOLUMES combustion chamber
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Effect of Gasoline Property on Formation of Intake Valve and Combustion Chamber Deposits
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作者 Xu Xiaohong Cai Jin +1 位作者 Liu Quanshan Xue Qunji 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2011年第3期27-32,共6页
The cleanliness of gasoline is related to its components and properties.All commercial gasoline builds up deposits on the engine's injector,intake valve and combustion chamber,which can significantly lower the eng... The cleanliness of gasoline is related to its components and properties.All commercial gasoline builds up deposits on the engine's injector,intake valve and combustion chamber,which can significantly lower the engine performance and influence exhaust gas emissions.In this study,the intake valve deposits (IVD) and combustion chamber deposits (CCD) produced from combustion of fuel containing 21 v%—42 v% of aromatics and 8 v%—31 v% of olefins have been studied using Ford engine tests,and the characteristics of deposits were studied by IR spectroscopy,TGA and elemental analysis instrument.The test results have shown that deposit formation depends on the fuel composition,especially the aromatic content in the fuel.It is also observed that there are differences in the values of IVD and CCD measured by IR spectrometry and elemental analyses. 展开更多
关键词 GASOLINE intake valve deposits combustion chamber deposits
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Application of the porous medium combustion technology in the chamber reheating furnaces at Baosteel
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作者 RAO Wentao GUO Shuihua LIN Yu 《Baosteel Technical Research》 CAS 2012年第2期60-63,共4页
The design of the porous medium combustion (PMC) system which has been applied to chamber reheating furnaces is presented in this study and its main application effects are described in detail. Porous medium materia... The design of the porous medium combustion (PMC) system which has been applied to chamber reheating furnaces is presented in this study and its main application effects are described in detail. Porous medium materials are mainly ceramic ball sucked granular bed porous media and foam ceramic porous media. This study investigates the foam ceramic porous medium and a schematic diagram of the combustion inside this porous medium. The PMC takes a solid medium as its main heat exchange way, thus greatly improving the heat transfer efficiency. Judging from the application effects,the following conclusions have been made: the PMC technology can save more than 25% of energy with remarkable effects; the furnace temperature uniformity can be significantly enhanced; the porous media combustion technology can make the heating furnace design in a more compact way, reduce the time for heating up the furnace, improve the heating rate and reduce energy consumption. 展开更多
关键词 porous medium combustion (PMC) technology chamber reheat furnace BURNER
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Optimization of Combustion Characteristics and Fuel Injection Timing of a New Type Dual-Pit Combustor Rotary Engine
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作者 Zhongjia Li Jianfeng Pan +3 位作者 Hongjun Liu Baowei Fan Wenming Yang Abiodun Oluwaleke Ojo 《Energy Engineering》 EI 2021年第3期581-603,共23页
In order to improve the performance of the rotary engine,this paper has designed a new type of dual-pit rotary engine combustion chamber structure,and compares the combustion and emission characteristics with the rota... In order to improve the performance of the rotary engine,this paper has designed a new type of dual-pit rotary engine combustion chamber structure,and compares the combustion and emission characteristics with the rotary engine with a traditional combustion chamber.The existence of the dual-pit combustion chamber strengthens the overall vortex intensity in the cylinder,effectively promotes the mixing process of fuel and air in the cylinder,the maximum combustion pressure in the cylinder increased by 8.6%,significantly increases the diffusion combustion speed,and significantly improves the dynamic performance of the rotary engine.On this basis,the effects of fuel injection timing parameters on fuel distribution,combustion and emission characteristics were studied.Fuel distribution is more even and dispersed during injection in the later stage of compression.When the fuel injection timing was 105°BTDC in the middle of the compression phase,the matching effect of fuel distribution law and ignition scheme was the best.When the injection timing was 75°BTDC and 85°BTDC in the late compression stage,the mass fraction of NOx remained at a low level.The correlation between soot generation and the change of fuel injection timing was weak.When the injection time was 85°BTDC,the soot generation remained at a relatively high level. 展开更多
关键词 Rotary engine combustion chamber structure spray combustion characteristics injection strategy experiment and simulation
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The Impact of Flexible Element Inside of Intake Canal on Kinematics of Load in Combustion Chamber
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作者 Piotr Piatkowski 《Computer Technology and Application》 2013年第10期538-542,共5页
The results of analysis of technical possibilities to increase engine efficiency were presented in this article. This problem was connected with kinematics properties of air inflow to the combustion chamber. The possi... The results of analysis of technical possibilities to increase engine efficiency were presented in this article. This problem was connected with kinematics properties of air inflow to the combustion chamber. The possibilities of intake airflow modulation have a positive impact on combustion process, level of engine usable parameters and emission. This issue was presented on the results of experimental research. Results of baseline research gave information about the flow resistance. On the basis of results of experimental research, conclusions were formulated. 展开更多
关键词 Supply system engine intake system filling of combustion chamber.
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Full Cycle Cold Flow Analysis of the Effect of Twin Swirl Combustion Chamber Design in a Diesel Engine
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作者 Doğan Güneş Mehmet Serkan Horasan 《World Journal of Mechanics》 2016年第4期109-117,共9页
New designs and adaptation methods are experimented to ensure compliance to ever increasing emissions and efficiency requirements of modern diesel engines. Piston head structure which influences the mixing rate and ti... New designs and adaptation methods are experimented to ensure compliance to ever increasing emissions and efficiency requirements of modern diesel engines. Piston head structure which influences the mixing rate and timing of the fuel within in the combustion chamber is known to enable increase in combustion efficiency and thus lower emission rates. In this paper, computation analysis of flow within a diesel engine cylinder with a twin swirl combustion chamber design throughout a full cycle is presented. The results obtained indicate that the effect of the twin swirl combustion chamber on the cold flow conditions is noteworthy and further analysis together with experiments may reveal information that may prove to be useful in further new designs. 展开更多
关键词 Cold Flow Analysis combustion chamber Design Internal combustion Engine Diesel Engine
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Influence of Combustion Chamber Design Parameters and Intake Environments on Spark Ignition Engine Performance and Exhaust Gas Emission
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作者 Ali S. Al-Shahrany Ahmed S. A. Hassan 《Open Journal of Applied Sciences》 2022年第6期930-943,共14页
In the present paper, the effect of the combustion chamber design parameters on the improvement of combustion efficiency (the heat generated inside the combustion chamber) and the enhancement in the pollution rates (h... In the present paper, the effect of the combustion chamber design parameters on the improvement of combustion efficiency (the heat generated inside the combustion chamber) and the enhancement in the pollution rates (heat emissions) from a four-stroke, spark-ignition engine has been studied experimentally and theoretically. Two different programs, Gaseq and Ansys, were used to simulate the effect of the combustion chamber shape, turbulent kinetic energy, intake temperature, intake pressure, parity ratio, compression ratio, and engine speed on reducing specific fuel consumption in the engine, reducing carbon dioxide emissions, and increasing overall engine efficiency. The results showed increasing the intake temperature increased the amount of heat produced in the combustion chamber. This leads to increases in the overall efficiency of the engine, but leads to increasing the carbon dioxide and nitrogen oxide emissions. Increasing the intake pressure has a positive effect on the combustion temperature and pressure, but it has a negative effect on carbon dioxide and nitrogen oxides. Raising the pressure ratio improved the overall efficiency of the engine by increasing the combustion heat, but increasing specific fuel consumption and emissions. Also, increasing the engine speed above the permissible limit has an adverse effect on the spraying speed due to the piston speed being higher than the flame speed, which leads to a reduction in the engine brake torque. An increase in the compression ratio leads to higher fluid pressure and output capacity, but combustion methods occur. An increase in the kinetic energy of the turbulence leads to good combustion. A bowl in a piston has the highest rate of rotation and rotation compared to flat and hemispherical pistons. That is, the design of the cylinder head of this type leads to an improvement in the combustion efficiency and thus the efficiency of the engine. 展开更多
关键词 Spark Ignition Engine Four Stroke combustion chamber Crank Angle EMISSION
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Experimental Tests on a Pre-Heated Combustion Chamber for Ultra Micro Gas Turbine Device: Air/Fuel Ratio Evaluation
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作者 Roberto Capata Kliton Kylykbashi +1 位作者 Alfonso Calabria Mario Di Veroli 《Engineering(科研)》 2016年第11期789-805,共17页
Current portable power generators are mainly based on internal combustion engine since they present higher values of efficiency comparing to other engines;the main reason why internal combustion engine is not convenie... Current portable power generators are mainly based on internal combustion engine since they present higher values of efficiency comparing to other engines;the main reason why internal combustion engine is not convenient for micro power generation (5 - 30 kW) is because of their heaviness. Micro and ultra micro gas turbine devices, based on a micro compressor and a micro turbine installed on the same shaft, are more suitable for this scope for several reasons. Micro turbine systems have many advantages over reciprocating engine generators, such as higher power density (with respect to size and weight), extremely low emissions and few, or just one, moving part. Those designed with foil bearings and air-cooling operate without oil, coolants or other hazardous materials. Micro turbines also have the advantage of having the majority of their waste heat contained in their relatively high temperature exhaust. Micro turbines offer several potential advantages compared to other technologies for small-scale power generation, including: a small number of moving parts, compact size, lightweight, greater efficiency, lower emissions, lower electricity costs, and opportunities to utilize waste fuels. The object of this study is the experimental tests on a stand-alone gas turbine device with a pre-heated combustion chamber (CC), to validate the fuel consumption reduction, compared to an actual and commercial device, used on air models. 展开更多
关键词 Experimental Tests combustion chamber Ultra Micro Gas Turbine Fuel Consumption
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Combustion Characteristics in Growth Chamber for Verneuilgrown Rutile Crystal
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作者 Xudong LIU Lei WANG +2 位作者 Huiyun YAN Xiaoguo BI Xudong SUN 《Research and Application of Materials Science》 2020年第1期59-66,共8页
Combustion characteristics of three-tube burner in growth chamber for preparation of single crystal by the Verneuil method were investigated,and the effects of nozzle structure and flow rate on the surface temperature... Combustion characteristics of three-tube burner in growth chamber for preparation of single crystal by the Verneuil method were investigated,and the effects of nozzle structure and flow rate on the surface temperature of molten cap were analyzed.The results showed that hydrogen flowed out from the nozzle diffused with inner and outer oxygen,and two flame produced in the center and near the wall of growth chamber.The surface temperature of molten cap were gradually reduced from the center outward.The temperature of molten cap decreased gradually with increasing the nozzle aperture of inner oxygen,and varied slightly with the diameter of hydrogen and outer oxygen nozzle.The temperature of molten cap decreased gradually with increasing the flow rate of inner and outer oxygen,while increased with the flow rate of hydrogen. 展开更多
关键词 rutile crystal growth chamber combustion SIMULATION
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Optimizing Spray and Combustion in Diesel Engine by Multidimensional Numerical Simulation 被引量:2
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作者 周磊 赵长禄 张付军 《Journal of Beijing Institute of Technology》 EI CAS 2005年第4期406-410,共5页
The calculation of spray and combustion in diesel engines is described by using the softwares FIRE and BOOST. The application of the resulting computational method to the simulation of fuel spray and breakup, mixture ... The calculation of spray and combustion in diesel engines is described by using the softwares FIRE and BOOST. The application of the resulting computational method to the simulation of fuel spray and breakup, mixture formation and combustion in a heavy duty diesel is presented. According to detailed insight into the governing processes provided by the simulation results, various aspects of the dependence of the spray propagation and combustion on the chamber geometry and spray angle are discussed. Then, global cylinderaveraged pressure traces are extracted from the space and time resolved field quantities and compared to incylinder pressure measurements. Finally, an optimized configuration of the chamber geometry and spray angle with a new injection rate of higher injection pressure is proposed. 展开更多
关键词 multidimensional simulation DIESEL spray propagation combustion chamber geometry
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Improving Designs of CA6DF2 Series Diesel Combustion System 被引量:1
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作者 李文祥 葛蕴珊 +1 位作者 胡芳 李骏 《Journal of Beijing Institute of Technology》 EI CAS 2005年第2期179-183,共5页
The technical improvements are made based on the former CA6110 diesel engine to meet the requirements of Euro Ⅱ emission standards. The performance and emission for CA6DF1 and CA6DF2 are all met the demand of design ... The technical improvements are made based on the former CA6110 diesel engine to meet the requirements of Euro Ⅱ emission standards. The performance and emission for CA6DF1 and CA6DF2 are all met the demand of design by improving the fuel, combustion and supercharging systems. The injection system adopts high-pressure pump-pipe-injector injection system. To enhance the injection pressure, the methods of augmenting plunger diameter, decreasing the nozzle hole diameter and reducing the inner diameter of the high-pressure fuel pipe are adopted. The design of combustion chamber and the match of inner fuel distributions with air motion are based on a great deal of experimental database and some simple computer-aided methods, which ensure the optimization of performance and provide the guide for experimental development. 展开更多
关键词 emission standards diesel engine design of combustion chamber combustion
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Experimental Study of MHD-Assisted Mixing and Combustion Under Low Pressure Conditions 被引量:1
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作者 高岭 张百灵 +3 位作者 李益文 樊昊 段成铎 王宇天 《Plasma Science and Technology》 SCIE EI CAS CSCD 2016年第8期855-859,共5页
In order to reveal the mechanism of MHD-assisted mixing, and analyse the major parameters which influence the effect of MHD-assisted mixing, experiments of MHD-assisted mixing are carried out with a non-premixed butan... In order to reveal the mechanism of MHD-assisted mixing, and analyse the major parameters which influence the effect of MHD-assisted mixing, experiments of MHD-assisted mixing are carried out with a non-premixed butane-air combustion system. The evolvement of the discharge section and the effect of MHD-assisted mixing on combustion are investigated by changing the magnetic flux density and airflow velocity. The results show that the discharge area not only bends but also rotates around the centered wire electrode, which are mainly caused by the Lorentz force. Moreover, the highest curvature occurs near the centered wire electrode.The discharge localizes near the surface of the wire electrode and annular electrode when there is no ponderomotive force. However, if the ponderomotive force is applied, the discharge happens between these two electrodes and it gradually shrinks with time. The discharge area cannot localize near the annular electrode, which is due to the increase of energy loss in the airflow.When the airflow velocity exceeds a certain value, the discharge section becomes unstable because the injected energy cannot maintain the discharge. The rotation motion of the discharge section could enlarge the contact surface between butane and air, and is therefore beneficial for mixing and combustion. Magnetic flux density and airflow velocity are critical parameters for MHD-assisted mixing. 展开更多
关键词 MHD-assisted mixing combustion chamber MagnetoHydroDynamics(MHD) PLASMA
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Influence of Internal Combustion Engine Parameters on Gas Leakage through the Piston Rings Area
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作者 Waleed Momani 《Modern Mechanical Engineering》 2017年第1期27-33,共7页
In this work, the influence of internal combustion engine parameters (cylinder-piston clearance, piston head height, the first segment position, gap of the first piston ring and gap of the second piston ring, piston r... In this work, the influence of internal combustion engine parameters (cylinder-piston clearance, piston head height, the first segment position, gap of the first piston ring and gap of the second piston ring, piston rings’ axial clearance, intake valve debit coefficient) gas leakage from the combustion chamber through the piston rings’ area was investigated. This influence was studied by making an initial forming operation over gas leakage in the analyzed area. 展开更多
关键词 PISTON CLEARANCE combustion Engine Cylinder-Piston PISTON RINGS chamber Gas LEAKAGE
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燃烧室抛光技术对汽油机经济性影响的研究 被引量:3
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作者 叶彩霞 黄昭明 +2 位作者 王利 陈泓 潘金元 《机械科学与技术》 CSCD 北大核心 2024年第6期1000-1005,共6页
在一台单缸汽油机上,进行了燃烧室壁面抛光前后燃烧相位、燃烧持续期与平均指示热效率相互影响变化规律的试验研究。结果表明:单缸汽油机以化学计量空燃比、低负荷、低圧缩比运行时,抛光后的燃烧室传热损失减少、经济性改善,平均指示热... 在一台单缸汽油机上,进行了燃烧室壁面抛光前后燃烧相位、燃烧持续期与平均指示热效率相互影响变化规律的试验研究。结果表明:单缸汽油机以化学计量空燃比、低负荷、低圧缩比运行时,抛光后的燃烧室传热损失减少、经济性改善,平均指示热效率从40.8%上升到了42.2%,而随着负荷的增大、压缩比的提高,抛光后燃烧室传热损失减小带来的爆震效果增强,燃烧相位推迟和燃烧持续期延长,最终导致平均指示热效率下降;当汽油机以稀薄燃烧模式运行时,平均指示热效率上升,最高热效率超过45%;当汽油机进入爆震区域以10.5 bar负荷运行时,抛光后燃烧室传热损失减少增强了爆震效果,导致平均指示热效率相比于抛光前总体下降。 展开更多
关键词 汽油机 燃烧室 壁面抛光 燃烧相位 燃烧持续期
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大缸径柴油机燃烧系统优化模拟 被引量:1
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作者 李成 田华 +2 位作者 黄永仲 隆武强 陈秉智 《哈尔滨工程大学学报》 EI CAS CSCD 北大核心 2024年第1期25-31,共7页
为提高某缸径200 mm船用发电柴油机的燃油经济性,本文设计了活塞燃烧室和燃油喷射系统的升级方案并进行了模拟优化。升级方案提高了压缩比和燃油喷射压力,采用大径深比浅ω燃烧室配合158°喷油夹角喷油嘴。对不同方案下发动机的缸... 为提高某缸径200 mm船用发电柴油机的燃油经济性,本文设计了活塞燃烧室和燃油喷射系统的升级方案并进行了模拟优化。升级方案提高了压缩比和燃油喷射压力,采用大径深比浅ω燃烧室配合158°喷油夹角喷油嘴。对不同方案下发动机的缸内工作过程进行了计算流体力学模拟,计算了高压指示功和放热率相位,分析了缸内温度、反应过量空气系数和速度分布及演化。模拟结果表明:升级方案能够提高发动机热效率。增加喷孔数并减小孔径,可以在保持NOx排放基本不变的条件下提高高压指示功4.5%,降低碳烟排放约60%。采用“平顶”浅ω燃烧室与158°喷油夹角喷雾配合,油气混合气快速进入余隙并形成逆时针的漩涡流动,能够加速油气混合和燃烧过程,提高热效率。 展开更多
关键词 柴油机 燃油经济性 燃烧室 燃油喷射 模拟 优化 热效率 氮氧化物 碳烟
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氨/氢燃料射流点火船用发动机燃烧特性 被引量:2
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作者 魏胜利 张绍邦 +2 位作者 严书哲 张志成 倪士栋 《西安交通大学学报》 EI CAS CSCD 北大核心 2024年第5期124-132,共9页
为突破氨在发动机中的燃烧局限性,促进氨燃料高效快速燃烧,提出了一种利用氢气射流火焰点燃氨燃料的方案。通过向主动式预燃室供给氢气,进气道内预混氨/氢燃料,实现氨在大缸径船用发动机上的稳定高效燃烧。基于数值模拟计算方法,在改进... 为突破氨在发动机中的燃烧局限性,促进氨燃料高效快速燃烧,提出了一种利用氢气射流火焰点燃氨燃料的方案。通过向主动式预燃室供给氢气,进气道内预混氨/氢燃料,实现氨在大缸径船用发动机上的稳定高效燃烧。基于数值模拟计算方法,在改进了Otomo氨/氢机理基础上,探究了进气温度、掺混氢气的质量分数和主燃室当量比对氨/氢燃料着火与燃烧特性的影响。研究结果表明,射流火焰可以在主燃烧室形成燃烧所需的热力学环境和高活性热射流。在当量比为0.4、不掺混氢气的条件下,450 K进气温度可以实现氨燃料发动机的稀薄燃烧,在掺混氢气的质量分数较低时,射流点火对火焰发展促进作用更显著;掺混氢气的质量分数提高至10.0%可以使燃烧相位提前18°,但爆震风险增加;在进气温度为320 K和掺混氢气的质量分数为2.5%条件下,主燃室在当量比最小为0.45时可正常着火,但随着更接近理论空燃比的燃烧,指示热效率略有提升,主动预燃室氢射流点火的燃烧模式在实现氨发动机高效快速燃烧方面具有良好的潜力。 展开更多
关键词 氨/氢燃料 船用发动机 预燃室 射流点火 燃烧特性
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燃烧系统参数对商用车发动机燃烧和排放特性的影响研究
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作者 雷基林 李臻卓 +3 位作者 刘懿 王伟超 宋国富 张海丰 《内燃机工程》 CAS CSCD 北大核心 2024年第2期54-63,74,共11页
为改善商用车发动机性能,采用计算流体力学(computational fluid dynamics,CFD)模拟、正交设计等方法,针对某商用车的燃烧室结构参数设计了4种新方案,并选取油束夹角、喷雾锥角、主喷正时等3个喷油参数开展多因素影响研究。结果表明:燃... 为改善商用车发动机性能,采用计算流体力学(computational fluid dynamics,CFD)模拟、正交设计等方法,针对某商用车的燃烧室结构参数设计了4种新方案,并选取油束夹角、喷雾锥角、主喷正时等3个喷油参数开展多因素影响研究。结果表明:燃烧室形状曲线向内收缩且最大半径增大的方案1燃烧室可提升缸内湍流特性,改善燃油浓度分布,使燃烧速度加快,油气混合更好,为最优方案。在喷油参数研究方案中,以碳烟(soot)排放为优化指标时,油束夹角对排放特性影响最大,最优匹配方案是油束夹角147°、喷雾锥角15°、主喷正时-1°,其缸内碳烟排放较原机下降13.91%,且NOx排放减少13.98%;以氮氧化物(nitrogen oxides,NOx)排放为优化指标时,主喷正时对排放特性影响最大,最优匹配方案是油束夹角160°、喷雾锥角25°、主喷正时-1°,其缸内NOx排放较原机降低37.79%。 展开更多
关键词 商用车 燃烧系统 燃烧室 喷油参数 燃烧特性 排放特性
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