|Table of Contents|

Energy Flow Control Strategy of Internal Combustion-linear Generator Integrated Power System

《南京理工大学学报》(自然科学版)[ISSN:1005-9830/CN:32-1397/N]

Issue:
2010年06期
Page:
781-786
Research Field:
Publishing date:

Info

Title:
Energy Flow Control Strategy of Internal Combustion-linear Generator Integrated Power System
Author(s):
REN Gui-zhouCHANG Si-qin
School of Mechanical Engineering,NUST,Nanjing 210094,China
Keywords:
internal combustion-linear generator integrated power systems linear electric generators energy flow control strategy
PACS:
TM31
DOI:
-
Abstract:
To realize the high efficiency energy flow for an internal combustion-linear generator integrated power system,a novel energy storage system is proposed.The main construction characteristics and the mathematical models of the components of the energy storage system are schemed.The operation principle and the power flow model of the energy storage system are illustrated.The control strategy of bi-directional four operating modes of forward-buck to provide energy,forward-boost to provide energy,reverse-buck recovery energy and reverse-boost recovery energy is proposed.The simulation results show that the efficiency of the system power flow for the novel energy storage system is 93.5%,meeting the high efficiency requirements of the system.

References:

[ 1] 常思勤, 徐照平. 内燃-直线发电集成动力系统[ P]. 中国: 10019410. 0, 2007- 01- 22.
[ 2] 常思勤, 徐照平. 内燃-直线发电集成动力系统概念设计[ J]. 南京理工大学学报( 自然科学版),2008, 32( 4): 449- 452.
[ 3] 程伟, 徐国卿, 王晓东. 电动汽车用永磁无刷电机回馈制动技术研究[ J]. 电气传动, 2005, 35( 11):15- 17.
[ 4] K eY L, ChuangY C, ChuangH S. Energy recoveryelectr ic bicycle w ith tw o-quadrant DC m oto r dr ivers[ A]. Pro c IEEE Industry App lications Soc iety AnnualM eeting[ C]. H ouston, Texas, USA: W ho lesa leW E lec tric, 2009: 1- 7.
[ 5] 张毅, 杨林, 李立明. 电动汽车无刷直流电动机的回馈制动控制[ J]. 上海交通大学学报, 2005,39( 9): 1457- 1460.
[ 6] Munehiro K. Development of traction dr ivemoto rs for theToyota hybrid system[ J]. Transactions of the Institute o fElectrical Eng ineers o f Japan, 2006, 26( 9): 473- 479.
[ 7] Staunton R H, Ayers C W, M arlino L D. Eva luation o f2004 Toyo ta prius hybr id electr ic drive system [ R ].W ashing ton DC, USA: Osk R idge NationalLaboratory, 2006.
[ 8] 任桂周, 常思勤. 一种电能双向流动的储能系统及其控制方法[ P]. 中国: 201010508339. 4, 2010- 10- 15.
[ 9] H irosh iN, Ioannou P A. Deve lopm ent o f a regenerativebrak ing system using UC for EV[ J]. Journa l o fA sian E lectr ic Veh icles, 2003, 1( 2): 429- 432.
[ 10] Chinnaiyan V K, Jov itha J. Design and imp lem entationof high power DC-DC converter and speed contro lo f DC mo tor using TM S320F240 DSP [ A ]. Proc o fIndia Interna tiona l Conference on Power E lec tron ics[ C] . Chenna,i India: Num er ic Pow er System s L td,2006: 388- 392.
[ 11] 廖志凌, 阮新波. 一种独立光伏发电系统双向变换器的控制策略[ J]. 电工技术学报, 2008, 23( 1): 97- 103.
[ 12] 刘海波, 毛承雄, 陆继明. 电子电力变压器储能系统及其最优控制[ J]. 电工技术学报, 2010, 25( 3): 54- 60.
[ 13] Ren G Z, Chang S Q. Sim ulation and ana lysis of averagemode l sw itch netw ork o f b-i directiona l DC-DCpower converter for pow er system of hybr id electr ic vehicle[A ]. Proc o f the Th ird International ConferenceonM echan ical Eng ineer ing andM echan ics[ C ]. Be-ijing, Ch ina: Science Press USA Inc, 2009: 1114- 1119.

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Last Update: 2012-11-02