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2019 | OriginalPaper | Buchkapitel

Power Management and Energy Optimization in Hybrid Electric Vehicle—A Review

verfasst von : Ravi Dutt Sharma, Dheeraj Sharma, Kartik Awasthi, Nazish Ahmad Shamsi

Erschienen in: Advances in Fluid and Thermal Engineering

Verlag: Springer Singapore

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Abstract

The continuous depleting reserves of fossil fuel triggered the requirement of vehicles equipped or semi-equipped with alternative fuel resources. The dependence on fossil fuels could be reduced using an alternative method. The technology used in the hybrid electric vehicle might play an important role in preserving fossil fuel reserves and the environment simultaneously. A hybrid powertrain transmission utilizes an integrated assembly of renewable and non-renewable energy resources for power generation. It requires an accurate and flexible control system to achieve the required output. Typically, hybrid electric vehicles are furnished with IC engine and electrical storage devices like ultra-capacitors or batteries for power supply. The entire vehicle framework is preoccupied with one comprising of two power sources. This paper gives an overview of hybrid powertrain transmission along with a systematic review of energy optimization (EO) and power management (PM) strategies in terms of fuel consumption and emissions.

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Kebriaei M, Niasar AH, Asaei B (2015) Hybrid electric vehicles: an overview. In: IEEE international conference on connected vehicles and expo (ICCVE), pp 299–305

Chau KT, Wong YS (2002) Overview of power management in hybrid electric vehicles. Energy Convers Manage 43:1953–1968CrossRef

Shen C, Shan P, Gao T (2011) A comprehensive overview of hybrid electric vehicles. Int J Veh Technol 2011:1–7

Momoh OD, Omoigui MO (2009) An overview of hybrid electric vehicle technology. In: IEEE vehicle power and propulsion conference (VPPC’09), pp 1286–1292

Raslavičius L, Keršys A, Makaras R (2017) Management of hybrid powertrain dynamics and energy consumption for 2WD, 4WD, and HMMWV vehicles. Renew Sustain Energy Rev 68:380–396CrossRef

Kepple BE (2010) The triple hybrid electric vehicle. In: IEEE 20th Australasian universities power engineering conference (AUPEC), pp 1–6

Sciarretta A, Guzzella L (2007) Control of hybrid electric vehicles. IEEE Control Syst 27:60–70CrossRef

Liu J, Peng H (2008) Modeling and control of a power-split hybrid vehicle. IEEE Trans Control Syst Technol 16:1242–1251CrossRef

Andwari AM, Pesiridis A, Rajoo S, Martinez-Botas R, Esfahanian V (2017) A review of battery electric vehicle technology and readiness levels. Renew Sustain Energy Rev 78:414–430CrossRef

10.

Offer GJ, Howey D, Contestabile M, Clague R, Brandon NP (2010) Comparative analysis of battery electric, hydrogen fuel cell and hybrid vehicles in a future sustainable road transport system. Energy Policy 38:24–29CrossRef

11.

Liu G, Ouyang M, Lu L, Li J, Hua J (2015) A highly accurate predictive-adaptive method for lithium-ion battery remaining discharge energy prediction in electric vehicle applications. Appl Energy 149:297–314CrossRef

12.

Schuster SF, Brand MJ, Berg P, Gleissenberger M, Jossen A (2015) Lithium-ion cell-to-cell variation during battery electric vehicle operation. J Power Sources 297:242–251CrossRef

13.

Kumar MS, Revankar ST (2017) Development scheme and key technology of an electric vehicle: an overview. Renew Sustain Energy Rev 70:1266–1285CrossRef

14.

Evangelou SA, Shabbir W (2016) Dynamic modeling platform for series hybrid electric vehicles. IFAC-Pap 49:533–540CrossRef

15.

Cao J, Peng J, He H (2016) Modeling and simulation research on power-split hybrid electric vehicle. Energy Procedia 104:354–359CrossRef

16.

Moura SJ, Fathy HK, Callaway DS, Stein JL (2011) A stochastic optimal control approach for power management in plug-in hybrid electric vehicles. IEEE Trans Control Syst Technol 19:545–555CrossRef

17.

Brahma A, Guezennec Y, Rizzoni G (2000) Optimal energy management in series hybrid electric vehicles. In: IEEE American control conference, pp 60–64

18.

Pérez LV, Bossio GR, Moitre D, García GO (2006) Optimization of power management in an hybrid electric vehicle using dynamic programming. Math Comput Simul 73:244–254MathSciNetCrossRef

19.

Musardo C, Rizzoni G, Guezennec Y, Staccia B (2005) A-ECMS: an adaptive algorithm for hybrid electric vehicle energy management. Eur J Control 11:509–524MathSciNetCrossRef

20.

Lin C-C, Peng H, Grizzle JW, Kang J-M (2003) Power management strategy for a parallel hybrid electric truck. IEEE Trans Control Syst Technol 11:839–849CrossRef

21.

Banvait H, Anwar S, Chen Y (2009) A rule-based energy management strategy for plug-in hybrid electric vehicle (PHEV). In: IEEE American control conference ACC’09, pp 3938–3943

22.

Bashash S, Moura SJ, Forman JC, Fathy HK (2011) Plug-in hybrid electric vehicle charge pattern optimization for energy cost and battery longevity. J Power Sources 196:541–549CrossRef

23.

Lin C-C, Peng H, Grizzle JW (2004) A stochastic control strategy for hybrid electric vehicles. In: IEEE American control conference, pp 4710–4715

24.

Borhan H, Vahidi A, Phillips AM, Kuang ML, Kolmanovsky IV, Di Cairano S (2012) MPC-based energy management of a power-split hybrid electric vehicle. IEEE Trans Control Syst Technol 20:593–603CrossRef

25.

Borhan HA, Vahidi A, Phillips AM, Kuang ML, Kolmanovsky IV (2009) Predictive energy management of a power-split hybrid electric vehicle. In: IEEE American control conference (ACC’09), pp 3970–3976

26.

Rodatz P, Paganelli G, Sciarretta A, Guzzella L (2005) Optimal power management of an experimental fuel cell/supercapacitor-powered hybrid vehicle. Control Eng Pract 13:41–53CrossRef

27.

Lai J-S, Nelson DJ (2007) Energy management power converters in hybrid electric and fuel cell vehicles. Proc IEEE 95:766–777CrossRef

28.

Moreno J, Ortúzar ME, Dixon JW (2006) Energy-management system for a hybrid electric vehicle, using ultracapacitors and neural networks. IEEE Trans Ind Electron 53:614–623CrossRef

29.

Lin C-C, Kang J-M, Grizzle JW, Peng H (2001) Energy management strategy for a parallel hybrid electric truck. In: IEEE American control conference, pp 2878–2883

30.

Gong Q, Li Y, Peng Z-R (2008) Trip-based optimal power management of plug-in hybrid electric vehicles. IEEE Trans Veh Technol 57:3393–3401CrossRef

31.

He Y, Chowdhury M, Pisu P, Ma Y (2012) An energy optimization strategy for power-split drivetrain plug-in hybrid electric vehicles. Transp Res Part C Emerg Technol 22:29–41CrossRef

32.

Mets K, Verschueren T, Haerick W, Develder C, De Turck F (2010) Optimizing smart energy control strategies for plug-in hybrid electric vehicle charging. In: IEEE network operations and management symposium workshops (NOMS), pp 293–299

33.

Moura SJ, Callaway DS, Fathy HK, Stein JL (2010) Tradeoffs between battery energy capacity and stochastic optimal power management in plug-in hybrid electric vehicles. J Power Sources 195:2979–2988CrossRef

34.

Li SG, Sharkh SM, Walsh FC, Zhang C-N (2011) Energy and battery management of a plug-in series hybrid electric vehicle using fuzzy logic. IEEE Trans Veh Technol 60:3571–3585CrossRef

35.

Kim M-J, Peng H (2007) Power management and design optimization of fuel cell/battery hybrid vehicles. J Power Sources 165:819–832CrossRef

36.

Schouten NJ, Salman MA, Kheir NA (2003) Energy management strategies for parallel hybrid vehicles using fuzzy logic. Control Eng Pract 11:171–177CrossRef

37.

Montazeri-Gh M, Poursamad A, Ghalichi B (2006) Application of genetic algorithm for optimization of control strategy in parallel hybrid electric vehicles. J Frankl Inst 343:420–435CrossRef

38.

Chen Z, Mi CC, Xiong R, Xu J, You C (2014) Energy management of a power-split plug-in hybrid electric vehicle based on genetic algorithm and quadratic programming. J Power Sources 248:416–426CrossRef

39.

Lin C-C, Filipi Z, Wang Y, Louca L, Peng H, Assanis DN, Stein J (2001) Integrated, feed-forward hybrid electric vehicle simulation in SIMULINK and its use for power management studies. SAE Technical Paper

40.

Hu X, Murgovski N, Johannesson L, Egardt B (2013) Energy efficiency analysis of a series plug-in hybrid electric bus with different energy management strategies and battery sizes. Appl Energy 111:1001–1009CrossRef

41.

Chen Z, Mi CC, Xu J, Gong X, You C (2014) Energy management for a power-split plug-in hybrid electric vehicle based on dynamic programming and neural networks. IEEE Trans Veh Technol 63:1567–1580CrossRef

42.

Hu X, Moura SJ, Murgovski N, Egardt B, Cao D (2016) Integrated optimization of battery sizing, charging, and power management in plug-in hybrid electric vehicles. IEEE Trans Control Syst Technol 24:1036–1043CrossRef

43.

Piccolo A, Ippolito L, zo Galdi V, Vaccaro A (2001) Optimisation of energy flow management in hybrid electric vehicles via genetic algorithms. In: IEEE advanced intelligent mechatronics, pp 434–439

44.

Ripaccioli G, Bernardini D, Di Cairano S, Bemporad A, Kolmanovsky IV (2010) A stochastic model predictive control approach for series hybrid electric vehicle power management. In: IEEE American control conference (ACC), pp 5844–5849

45.

Stockar S, Marano V, Canova M, Rizzoni G, Guzzella L (2011) Energy-optimal control of plug-in hybrid electric vehicles for real-world driving cycles. IEEE Trans Veh Technol 60:2949–2962CrossRef

Titel: Power Management and Energy Optimization in Hybrid Electric Vehicle—A Review
verfasst von: Ravi Dutt Sharma
Dheeraj Sharma
Kartik Awasthi
Nazish Ahmad Shamsi
Verlag: Springer Singapore
Buch: Advances in Fluid and Thermal Engineering
Print ISBN: 978-981-13-6415-0

Electronic ISBN: 978-981-13-6416-7

Copyright-Jahr: 2019
DOI: https://doi.org/10.1007/978-981-13-6416-7_54

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