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Electric, Fuel Cell, and Hybrid Vehicle, Engine and Emissions, Heat Transfer, Fluid and Thermal Engineering |
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Proton Exchange Membrane Fuel Cells (PEMFC)-Based Electric Vehicle: Experimental Analysis of Fuel Flow Rates Effects of Hydrogen Refueling
Yusuf Dewantoro Herlambang, Nanang Apriandi, Totok Prasetyo, Prayitno , Ahmad Hamim Su’udy, Wahyu Sulistiyo, Margana , Marliyati , Dianisa Khoirum Sandi, Lastomo , Jin Cherng Shyu, Taufik
Int J Automot Technol. 2026;27(1):103-110. Published online 2025 Oct 6 DOI: https://doi.org/10.1007/s12239-025-00280-2
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Electric, Fuel Cell, and Hybrid Vehicle, Transmission and Driveline |
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Data-driven Modeling for Forecasting Brake System Limits in Fuel Cell Heavy-duty Trucks
Seongjae Mun, Jinhui Park, Hongwoo Lee, Changsun Ahn
Int J Automot Technol. 2026;27(1):1-12. Published online 2025 May 19 DOI: https://doi.org/10.1007/s12239-025-00266-0
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Electric, Fuel Cell, and Hybrid Vehicle, Fuels and Lubricants, Heat Transfer, Fluid and Thermal Engineering, Vision and Sensors |
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Development and Application of Hydrogen Sensor Evaluation Rig for FCEV
Han Soo Chang, Gyeong Gon Son, Joon Yeong Park, Seong Jun Hyung, Jae Seong Park
Int J Automot Technol. 2025;26(6):1557-1562. Published online 2025 Apr 28 DOI: https://doi.org/10.1007/s12239-025-00256-2
 
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Cited By 1 |
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Body and Safety, Manufacturing, Materials and Recycling |
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Local Reinforcement of a Fuel Cell End Plate for Package Improvements Using Steel–Aluminium Hybrid-Casting Technology
Florian Mielke, Sharath Christy Anand, Xiangfan Fang
Int J Automot Technol. 2025;26(1):147-162. Published online 2024 Aug 1 DOI: https://doi.org/10.1007/s12239-024-00129-0
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Cited By 1 |
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Electric, Fuel Cell, and Hybrid Vehicle |
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Nonlinear Water Transport Through a Polymer Electrolyte Membrane Under Transient Operation of a Proton Exchange Membrane Fuel Cell
Chanhee Lee , Yoora Choi , Younghyeon Kim , Sangseok Yu
Int J Automot Technol. 2024;25(5):1183-1200. DOI: https://doi.org/10.1007/s12239-024-00101-y
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Cited By 4 |
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Electric, Fuel Cell, and Hybrid Vehicle, Engine and Emissions, Heat Transfer, Fluid and Thermal Engineering |
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Analysis of Power Consumption on BOP System in a Fuel Cell Electric Bus According to the Fuel Cell Load Range
Yebeen Kim , Jiwoong Kim , Kyoungdoug Min
Int J Automot Technol. 2024;25(4):701-715. DOI: https://doi.org/10.1007/s12239-024-00064-0
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Cited By 7 |
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Connected Automated Vehicles and ITS, Electric, Fuel Cell, and Hybrid Vehicle, Vehicle Dynamics and Control |
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Novel Electric Vehicle Powertrain of Multi-Stack Fuel Cell Using Optimal Energy Management Strategy
Byeong Jin Eom , Eom Kiback , Dongho Yang , Minjae Kim
Int J Automot Technol. 2024;25(2):201-211. DOI: https://doi.org/10.1007/s12239-024-00010-0
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Cited By 8 |
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Body and Safety, Noise, Vibration and Harshness |
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Dynamic Fatigue Reliability Prediction Approach of Fuel Cell Vehicle Based on Usage Scenario
Zhenyu Nie , Rongliang Liang , Zhen Wu , Ting Guo , Xiaohui Zhang
Int J Automot Technol. 2024;25(1):147-160. DOI: https://doi.org/10.1007/s12239-024-00024-8
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Cited By 4 |
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Electric, Fuel Cell, and Hybrid Vehicle |
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ADAPTIVE ENERGY MANAGEMENT STRATEGY OF FUEL CELL
SIGHTSEEING VEHICLE
Yingxiao Yu , Hongxin Zou , Jian Liu , Yan Sun , Jiading Zhou
Int J Automot Technol. 2022;23(6):1681-1690. DOI: https://doi.org/10.1007/s12239-022-0146-3
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Cited By 3 |
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Electric, Fuel Cell, and Hybrid Vehicle |
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ADAPTIVE ENERGY MANAGEMENT STRATEGY OF FUEL CELL ELECTRIC VEHICLE
Yan Sun , Changgao Xia , Bifeng Yin , Yingxiao Yu , Jiangyi Han , Haiyu Gao
Int J Automot Technol. 2022;23(5):1393-1403. DOI: https://doi.org/10.1007/s12239-022-0122-y
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Cited By 4 |
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Electric, Fuel Cell, and Hybrid Vehicle, Electrical and Electronics |
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ENERGY MANAGEMENT STRATEGY OF FUEL CELL/BATTERY
HYBRID VEHICLE BASED ON SERIES FUZZY CONTROL
Hekun Jia, Jiexu Tang, Yingxiao Yu, Yan Sun, Bifeng Yin, Chao Zhang
Int J Automot Technol. 2021;22(6):1545-1556. DOI: https://doi.org/10.1007/s12239-021-0133-0
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Cited By 14 |
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Electric, Fuel Cell, and Hybrid Vehicle |
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IMPROVEMENT OF FUEL CELL DURABILITY PERFORMANCE
BY AVOIDING HIGH VOLTAGE
Seungki Yang, Sungbum Choi, Youngmin Kim, Jongjin Yoon, SeJoon Im, Hyunsuk Choo
Int J Automot Technol. 2019;20(6):1113-1121. DOI: https://doi.org/10.1007/s12239-019-0104-x
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Cited By 17 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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AIR FLOW TRAJECTORY AND SURGE AVOIDANCE OF CENTRIFUGAL COMPRESSOR UNDER VARIABLE PRESSURE OPERATION OF AUTOMOTIVE FUEL CELLS
J. HAN
Int J Automot Technol. 2016;17(4):731-738. DOI: https://doi.org/10.1007/s12239-016-0072-3
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Cited By 8 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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COMBINED POWER MANAGEMENT/DESIGN OPTIMIZATION FOR A FUEL CELL/BATTERY PLUG-IN HYBRID ELECTRIC VEHICLE USING MULTI-OBJECTIVE PARTICLE SWARM OPTIMIZATION
B. GENG, J. K. MILLS, D. SUN
Int J Automot Technol. 2014;15(4):645-654. DOI: https://doi.org/10.1007/s12239-014-0067-x
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Cited By 49 |
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Automobile Chassis & Vehicle Dynamic |
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IMPACT OF HILLY ROAD INFORMATION ON FUEL ECONOMY OF FCHEV BASED ON PARAMETERIZATION OF HILLY ROADS
J. HAN, D. KUM, Y. PARK
Int J Automot Technol. 2014;15(2):283-290. DOI: https://doi.org/10.1007/s12239-014-0029-3
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Cited By 13 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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COMPARISON OF PMP AND DP IN FUEL CELL HYBRID VEHICLES
C. H. ZHENG, G. Q. XU, Yeong-il Park, Won Sik Lim, Suk Won Cha
Int J Automot Technol. 2014;15(1):117-123. DOI: https://doi.org/10.1007/s12239-014-0013-y
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Cited By 20 |
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Alternative Energy & Vehicle |
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ENGINE PERFORMANCE POWERED BY A MIXTURE OF HYDROGEN AND OXYGEN FUEL OBTAINED FROM WATER ELECTROLYSIS
A. M. FALAHAT, M. A. HAMDAN, J. A. YAMIN
Int J Automot Technol. 2014;15(1):97-101. DOI: https://doi.org/10.1007/s12239-014-0011-0
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Cited By 26 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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ANALYSIS OF A SHELL-AND-TUBE TYPE GAS-TO-GAS MEMBRANE HUMIDIFIER FOR AN AUTOMOTIVE POLYMER ELECTROLYTE MEMBRANE FUEL CELL POWER SYSTEM
S.-K. PARK, S.-Y. CHOE, T.-W. LIM, J.-S. KIM, D.-H. SEO, J. H. CHOI
Int J Automot Technol. 2013;14(3):449-457. DOI: https://doi.org/10.1007/s12239-013-0049-4
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Cited By 6 |
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Automobile Chassis & Vehicle Dynamic |
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DEVELOPMENT OF A FAIL-SAFE CONTROL STRATEGY BASED ON EVALUATION SCENARIOS FOR AN FCEV ELECTRONIC BRAKE SYSTEM
K. JEON, H. HWANG, S. CHOI, S. HWANG, S. B. CHOI, K. YI
Int J Automot Technol. 2012;13(7):1067-1075. DOI: https://doi.org/10.1007/s12239-012-0109-1
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Cited By 11 |
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Automobile Body and Safety |
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TOPOLOGY OPTIMIZATION OF GAS FLOW CHANNEL ROUTES IN AN AUTOMOTIVE FUEL CELL
Cheol Kim, H. SUN
Int J Automot Technol. 2012;13(5):783-789. DOI: https://doi.org/10.1007/s12239-012-0078-4
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Cited By 25 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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FUEL ECONOMY EVALUATION OF FUEL CELL HYBRID VEHICLES BASED ON OPTIMAL CONTROL
C. H. ZHENG, Y. I. PARK, W. S. LIM, S. W. CHA
Int J Automot Technol. 2012;13(3):517-522. DOI: https://doi.org/10.1007/s12239-012-0049-9
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Cited By 22 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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DESIGN METHODOLOGY OF HYBRID ELECTRIC VEHICLE ENERGY SOURCES: APPLICATION TO FUEL CELL VEHICLES
X. LIU, D. KIALLO, C. MARCHAND
Int J Automot Technol. 2011;12(3):433-441. DOI: https://doi.org/10.1007/s12239-011-0051-7
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Cited By 20 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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EFFECTS OF STACK ARRAY ORIENTATION ON FUEL CELL EFFICIENCY FOR AUXILIARY POWER UNIT APPLICATIONS
K.-S. CHOI, S.-H JANG, G. S. SHIN, H.-M. KIM, H. CH. YOON, M. E. FORREST, P. A. ERICKSON
Int J Automot Technol. 2010;11(3):429-434. DOI: https://doi.org/10.1007/s12239-010-0052-y
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Cited By 2 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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MODELING AND SIMULATION OF FUEL CELL HYBRID VEHICLES
H. YUN, Y. ZHAO, J. WANG
Int J Automot Technol. 2010;11(2):223-228. DOI: https://doi.org/10.1007/s12239-010-0028-y
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Cited By 16 |
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Fuel Cell, Hybrid and Electrical Vehicle |
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NEW APPROACH FOR PERFORMING FAILURE ANALYSIS OF FUEL CELL-POWERED VEHICLES
V. MOTEVALLI1, M.-S. MOHD
Int J Automot Technol. 2009;10(6):743-752.
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Fuel Cell, Hybrid and Electrical Vehicle |
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EMPIRICAL MODELING OF A POLYMER ELECTROLYTE FUEL CELL BASED ON WATER TRANSPORT INVESTIGATION AND CURRENT INTERRUPT MEASUREMENT
S. CHOI, K. CHU, J. RYU, M. SUNWOO
Int J Automot Technol. 2009;10(6):719-732.
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Fuel Cell, Hybrid and Electrical Vehicle |
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DEVELOPMENT OF FUEL CELL HYBRID POWERTRAIN RESEARCH PLATFORM BASED ON DYNAMIC TESTBED
Z. ZIN, M. OUYANG, Q. LU, D. GAO
Int J Automot Technol. 2008;9(3):365-372.
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Fuel Cell, Hybrid and Electrical Vehicle |
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EFFECTS OF COOLANT CHANNELS ON LARGE-SCALE POLYMER ELECTROLYTE FUEL CELLS (PEFCs)
H. C. JU, C.-Y. WANG
Int J Automot Technol. 2008;9(2):225-232.
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Fuel Cell, Hybrid and Electrical Vehicle |
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PERFORMANCE ANALYSIS ACCORDING TO THE COMBINATION OF ENERGY STORAGE SYSTEM FOR FUEL CELL HYBRID VEHICLE
S. J. AN, K. I. LEE, T. J. KIM
Int J Automot Technol. 2008;9(1):111-118.
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Fuel Cell, Hybrid and Electrical Vehicle |
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FUEL ECONOMY IMPROVEMENT FOR FUEL CELL HYBRID ELECTRIC VEHICLES USING FUZZY LOGIC-BASED POWER DISTRIBUTION CONTROL
H.-S. AHN, N. S. LEE, C. W. MOON, G.-M. JEONG
Int J Automot Technol. 2007;8(5):651-658.
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