Fluid dynamic modeling of a free piston engine with labyrinth seals 被引量：4

Fluid dynamic modeling of a free piston engine with labyrinth seals

导出

摘要 Preliminary design and simulation of a free piston engine suitable for small-scale energy production in distributed energy systems is presented in this paper.The properties,particularly the properties of gas seals of the engine are simulated using a simulation program developed for this case,and the results are utilized in preliminary main design parameter selection.The engine simulation program was developed by combining and modifying the source codes of the simulation and calculation programs obtained from Helsinki University of Technology,Tampere University of Technology,and Lappeenranta University of Technology.Because of the contact-free labyrinth seal used in the piston,the efficiency of the motor is lower than the efficiency of a conventional motor with oil lubricated piston rings.On the other hand,the lack of bearing losses,and the lack of losses associated with a crankshaft system and a gearbox,as well as the lack of lubrication oil expenses,compensates this effect.As a net result,this new motor would perform slightly better than the conventional one.Being completely oil-free,it is very environmentally friendly,and its exhaust gases are completely free of oil residuals which are causing problems in normal gas motors. Preliminary design and simulation of a free piston engine suitable for small-scale energy production in distributed energy systems is presented in this paper. The properties, particularly the properties of gas seals of the engine are simulated using a simulation program developed for this case, and the results are utilized in preliminary main design parameter selection. The engine simulation program was developed by combining and modifying the source codes of the simulation and calculation programs obtained from Helsinki University of Technology, Tampere University of Technology, and Lappeenranta University of Technology. Because of the contact-free labyrinth seal used in the piston, the efficiency of the motor is lower than the efficiency of a conventional motor with oil lubricated piston rings. On the other hand, the lack of bearing losses, and the lack of losses associated with a crankshaft system and a gearbox, as well as the lack of lubrication oil expenses, compensates this effect. As a net result, this new motor would perform slightly better than the conventional one. Being completely oil-free, it is very environmentally friendly, and its exhaust gases are completely free of oil residuals which are causing problems in normal gas motors.

作者 Jaakko Larjola Juha Honkatukia Petri Sallinen Jari Backman

机构地区 Lappeenranta University of Technology

出处《Journal of Thermal Science》 SCIE EI CAS CSCD 2010年第2期141-147,共7页 热科学学报（英文版）

基金 Project is financed by the Technology Development Center of Finland (Tekes)

关键词自由活塞发动机迷宫密封流体动力学模型分布式能源系统模拟仿真密封性能设计参数程序开发 free piston engine, distributed energy systems, simulation, labyrinth seal

分类号 TK402 [动力工程及工程热物理—动力机械及工程]

引文网络
相关文献

参考文献10

1Innas B.V. commercial brochure, www.innas.com. Accessed 1/2005.
2Tikkanen S. 2000, Evolution of Engine - Hydraulic Free Piston Engine. Dissertation. Acta Polytechnica Scandinavica. Mechanical Engineering Series No. 145. Tampere University of Technology, 2000.
3Pempek Systems commercial brochure, www. freepistonpower.com, Accessed 3/2005.
4Wechner E. 2003, Improvements to free-piston engines. Australian patent No 762530, 26.6.2003 (applied 4.5.2001).
5Larjola, J., Honkatukia, J., Sallinen, E: Environmentally friendly, oil-free free piston engine (in Finnish). Lappeenranta University of Technology, Dep. of Energy and Environmental Tech., Research Report EN B-163, 2005.
6Larjola J. 2002, Two-stroke engine (in Finnish). Patent No FI 108567 B, 15.2.2002 (applied 20.11.2000).
7Larmi M., Isaksson S., Tikkanen S., Lammila M. 2001, Performance Simulation of a Compression Ignition Free Piston Engine. SAE Paper 2001-01-0280. 8 p.
8Reunanen A., Backman J., Sahlberg P. 1994, Fluid mechanical design of an axial labyrinth seal (in Finnish). Research report EN B-85. LUT. Lappeenranta. 1994. 42 p ISBN 951-763-871-X. ISSN 0787-0043.
9Hirvonen M., Pyrhonen O., Handroos H. 2004, Force Ripple Compensator for a Vector Controlled PM Linear Synchronous Motor. IC1NCO 2004, Setubal, Portugal 2004, Vol. 2, pp. 177-184.
10Tikkanen S., Vilenius M. 2004, The control system of a linear engine. Symopro-Control system. Tuotekehitys Oy Tamlink. Tampere 2004 (limited distribution).

同被引文献20

1赵斌,孙铁.活塞压缩机气缸内气体的数值模拟[J].压缩机技术,2007(4):10-12. 被引量：15
2Hu J B, WuW, Yuan S H, et al. On-off motion of a hydraulic freepiston engine[J]. Proceedings of the Institution of MechanicalEngineers. Part D:Journal of Automobile Engineering, 2013,227(3):323-333.
3Hu J B, Wu W, Yuan S H, et al. Fuel combustion under asymmetric piston motion:tested results[J]. Energy, 2013,55:209-215.
4Hu J B, Wu W, Yuan S H, et al. Mathematical modelling of a hydraulic free-piston engine considering hydraulicvalve dynamics[J]. Energy, 2011,36:6234-6242.
5Mikalsen R, Roskilly A P. A review of free-piston engine history and applications[J]. Applied Thermal Engineering, 2007,27(14-15):2339-2352.
6Kim J, Bae C, Kim G. Simulation on the effect of the combustion parameters on the piston dynamics and engine performance using the Wiebe function in a free piston engine[J]. Applied Energy, 2013,107:446-455.
7Mikalsen R, Roskilly A P. Coupled dynamic-multidimensional modelling of free-piston engine combustion[J]. Applied Energy, 2009,86(1):89-95.
8Mikalsen R, Roskilly A P. A computational study of free-piston diesel engine combustion[J]. Applied Energy, 2009,86(7-8):1136-1143.
9栾延龙,李理光,王哲,邓俊,吴志军,吴旭陵.自由活塞发动机关键设计参数及其性能的仿真优化研究[J].内燃机工程,2010,31(2):15-21. 被引量：21
10马希金,王智,张明紫.基于CFX软件油气混输泵压缩级流场模拟及分析[J].石油矿场机械,2011,40(3):32-36. 被引量：17

引证文献4

1荆崇波,刘文翠,吴维,苑士华.液压自由活塞发动机能量转换效率研究[J].北京理工大学学报,2015,35(11):1113-1117.
2付冰洋,张建云,李笑岩,程显朋.基于CFX的往复压缩机气缸气阀腔结构研究[J].压缩机技术,2017(3):19-24. 被引量：1
3李冀辉,汪洋,徐帅卿,甄旭东,刘宇,胡耀辉.活塞运动规律对点燃式HFPE燃烧过程影响的仿真研究[J].内燃机工程,2017,38(6):23-28. 被引量：4
4胡耀辉,汪洋,耿鹤鸣,李智勇,李常铭,甄旭东.二冲程液压自由活塞发动机换气过程影响因素的仿真研究[J].内燃机工程,2019,40(2):118-124. 被引量：2

二级引证文献7

1郭栋,骞剑策,赵振峰,王蕾,俞春存.航空活塞二冲程发动机的可变排气阀换气过程[J].航空动力学报,2020,35(3):471-481. 被引量：3
2付长来,汪洋,耿鹤鸣,李智勇,徐帅,甄旭东.点燃式液压自由活塞发动机高增压燃烧过程的试验与仿真研究[J].内燃机工程,2019,40(2):8-14. 被引量：2
3胡耀辉,汪洋,耿鹤鸣,李智勇,李常铭,甄旭东.二冲程液压自由活塞发动机换气过程影响因素的仿真研究[J].内燃机工程,2019,40(2):118-124. 被引量：2
4姚娟.液压自由活塞发动机的发展历程及研究现状[J].内燃机与配件,2019(13):45-47.
5翟义然,赵勇,刘义,张彬.工业超声波燃气表内部结构设计的气体流动仿真研究[J].中国测试,2020,46(2):87-90. 被引量：8
6何旭,伍岳,马骁,李雁飞,齐运亮,刘泽昌,徐一凡,周扬,李熊伟,刘聪,冯海涛,刘福水.内燃机光学诊断试验平台和测试方法综述[J].实验流体力学,2020,34(3):1-52. 被引量：6
7李常铭,汪洋,耿鹤鸣,李智勇,董翔宇,甄旭东.二冲程气道喷射式液压自由活塞发动机喷射方式分析及优化仿真[J].武汉大学学报（工学版）,2021,54(3):255-262.

1零部件资讯[J].时代汽车,2010(12):110-111.
2MTU发起“中国攻略”[J].船舶与配套,2011(1):116-117.
3何干.齿轮箱迷宫密封及防漏方案探讨[J].机车车辆工艺,2015(5):47-48. 被引量：2
4王志达,王瑛媛.变工况下自由活塞行程、频率变化分析[J].华东船舶工业学院学报,1996,10(3):53-57.
5栾延龙,李理光,王哲,邓俊,吴志军,吴旭陵.二冲程自由活塞发动机-发电机系统设计与工作过程仿真研究[J].机电一体化,2009,15(12):43-47. 被引量：1
6吴杰,郑拓,梁志超,樊雅青.基于遗传算法的分布式能源系统优化设计[J].智能电网,2015,3(4):333-336. 被引量：2
7高速铁路线桥隧设计参数选择的研究[J].中国铁路,1997(2):45-46.
8Tognum亚洲公司正式更名为MTU亚洲公司[J].建筑机械,2014(2):59-59.
9李世兴,王宏,王颖,苑明哲.物联网技术在分布式能源系统中的应用[J].传感器与微系统,2013,32(3):1-3. 被引量：3
10宫洵,胡云峰,杨荣彬,陈虹.基于迭代Reference Governor的自由活塞发动机活塞运动控制[J].控制理论与应用,2017,34(2):188-196. 被引量：2

Journal of Thermal Science

2010年第2期

浏览历史

内容加载中请稍等...

Fluid dynamic modeling of a free piston engine with labyrinth seals 被引量：4

参考文献10

同被引文献20

引证文献4

二级引证文献7

相关作者

相关机构

相关主题

浏览历史