• Title/Summary/Keyword: Battery Module

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Experimental Study on Bi-directional Air Cooling System for 18650 Li-ion Battery Module to Minimize Cell-to-Cell Temperature Variation (18650 Li-ion battery Module의 Cell-to-Cell 온도 편차 최소화를 위한 양방향 냉각에 대한 실험적 연구)

  • JANG, HOSUN;PARK, MINGYU;JEON, JIWHAN;PARK, SEONGSU;KIM, TAEWOO;PARK, SUNGJIN
    • Journal of Hydrogen and New Energy
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    • v.28 no.4
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    • pp.407-418
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    • 2017
  • Battery heat management is essential for high power and high energy battery system because it affects its performance, longevity, and safety. In this paper, we investigated the temperature of the 18650 Lithium Ion Battery Module used in a Energy Storage System (ESS) and the cooling method to minimize cell-to-cell temperature variation of battery module. For uniform temperature distribution within a battery module, the flow direction of the coolant in a battery module has been changed according to the time interval, and studied the effect of the cooling method on the temperature uniformity in a battery module which includes a number of battery cells. The experimental results show that bi-directional battery cooling method can effectively reduce the cell-to-cell temperature variation compared with the one-directional battery cooling. Furthermore, it is also found that bi-directional battery cooling can reduce the maximum temperature in a battery module.

A Study on Selective Composite Patch for Light Weight and Quality Improvement of Battery Module (배터리 모듈의 경량화 및 품질 향상을 위한 선택적 복합재료 패치에 관한 연구)

  • Lee, Seung-Chan;Ha, Sung Kyu
    • Composites Research
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    • v.32 no.1
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    • pp.13-20
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    • 2019
  • In this study, in order to improve the quality issue and component characteristics of the battery module, which is one of the major parts of the electric vehicle. The structure is reinforced by using the composite material and the mechanism structure optimization of Hybrid concept which can overcome the disadvantages of single material was performed and the performance was compared. For this purpose, figure out the main design variables of composite materials according to Classical Laminated Plate Theory (CLPT) and the algorithm for predicting composite material properties have been studied. Based on the mechanical properties of the designed composite materials, finite element analysis (FEM) and the performance of the battery module was verified. Consequently, according to the verification result, Hybrid Battery Module reinforced with Selective Composite Patch can reduce the weight by 30% and reduce the product thickness by 32.5% compared with the existing Al battery module and proved the merit of Hybrid structure such as maintaining impact performance.

Charging-Discharging Behavior and Performance of AGM Lead Acid Battery/EDLC Module for x-HEV (x-HEV용 AGM 연축전지/EDLC 통합모듈의 성능 및 충방전 거동)

  • Kim, Sung Joon;Seo, Sung Won;An, Sin Young;Kim, Bong-Gu;Son, Jeong Hun;Jung, Yeon Gil
    • Korean Journal of Materials Research
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    • v.31 no.2
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    • pp.84-91
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    • 2021
  • To cope with automobile exhaust gas regulations, ISG and charging control systems are applied to HEV vehicles for the purpose of improving fuel economy. These systems require quick charge-discharge performance of high current. Therefore, a Module of the AGM battery with high energy density and EDLC(Electric Double Layer Capacitor) with high power density are constructed to study the charging and discharging behavior. In CCA, which evaluates the starting performance at -18 ℃ & 30 ℃ with high current, EDLC contributed for about 8 sec at the beginning. At 0 ℃ CA (Charge Acceptance), the initial Charging current of the AGM/EDLC Module, is twice that of the AGM lead acid battery. To play the role of EDLC during high-current rapid charging and discharging, the condition of the AGM lead-acid battery is optimally maintained. As a result of a Standard of Battery Association of Japan (SBA) S0101 test, the service life of the Module of the AGM Lead Acid Battery/EDLC is found to improve by 2 times compared to that of the AGM Lead Acid Battery.

A Study on the Electrical Characteristics of Battery Capacitor Applied to Photovoltaic Power System (태양광 시스템에 적용한 배터리 커패시터의 전기적 특성에 관한 연구)

  • Mang, Ju-Cheul;Yoon, Jung-Rag
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.66 no.12
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    • pp.1740-1744
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    • 2017
  • This paper describes the preparation and characteristics of a battery capacitor and module for solar power system. A cylindrical 30,000F battery capacitor ($60{\times}138mm$) was assembled by using the $LTO(Li_4Ti_5O_{12})$ electrode as an anode and $NMC(LiNiMnCoO_2)-LCO(LiCoO_2)$ as a cathode. The battery capacitor has reduced energy density and power density under high CC(constant current) and CP(constant power) conditions. Battery capacitor module (16V, 11Ah) was fabricated using an asymmetric hybrid capacitor with a capacitance of 30,000F. In order to determine the characteristics of the battery capacitor Module for solar power system, battery capacitor cells were connected in series with active balancing circuit. As a result of measuring the 100w LED lamp, it was discharged at the voltage of 15V~10V, and the compensation time at discharge was measured to be about 4979s. Experimental results show that it can be applied to applications related to solar power system by applying battery capacitor module.

Study of bidirectional DCDC converter to prevent circulating current between battery packs (배터리 팩 간의 순환전류 방지를 위한 양방향 DCDC 컨버터 연구)

  • Lee, Seunghyun;Joo, Sungjun
    • Journal of IKEEE
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    • v.23 no.2
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    • pp.695-703
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    • 2019
  • In this paper, we propose a method to remove the circulating current which can occur in the parallel connection of the high voltage series connected battery module in the battery pack. The removal way is a method of inserting a module named VVSM (Variable Voltage Variable Module) using bidirectional DCDC converter and supercapacitor in place of one or some of the cascaded battery cells in the battery pack configuration. In this module, it operates like a battery cell that can be controlled at a desired voltage. VVSM is used to match the voltages of the cascaded battery modules very easily. To demonstrate the proposed method, a PSIM simulation for battery model is used. In addition, the module with only the battery cell connected in series and the module with the proposed VVSM are made, and the two modules were connected in parallel to measure the circulating current between the two modules. As a result, it was verified that the proposed method effectively suppressed the circulating current.

Development of PC-based Auto Inspection System for Smart Battery Protection Circuit Module (PC기반의 스마트 배터리 보호모듈 자동 검사 시스템 개발)

  • Yoon, Tae-Sung;Jang, Gi-Won;Park, Ju-No;Lee, Jeong-Jae
    • Proceedings of the KIEE Conference
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    • 2005.05a
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    • pp.275-277
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    • 2005
  • In a lithium-ion battery which is being used in many portable electronic goods, electrolyte is disaggregated and then the gas is happened when electric charging volt is over the 4.5V. So, the pressure on the safety valve is increased and electrolyte is leaked out in the cell. It leads to the risk of explosion. On the other hand, in the case which the battery is discharged excessively, the negative pole is damaged and the performance of the battery is deteriorated. The protection module of a lithium-ion battery is used for preventing such risk and the inspection system is needed to check the performance of such protection module. In this research, a PC-based auto inspection system is developed for the inspection of a battery protection module using Dallas chipset. In the inspection system, AVRl28 chip is used as a controller and the communication protocol is developed for the data communication between the protection module and the AVR128 chip. And GPIB interface is used for the control of measuring devices. Also, MMI environment is developed using LabView for convenient monitoring by the tester.

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A Study on developing the Battery Management System for Electric Vehicle (전기자동차용 배터리 관리 시스템에 관한 연구)

  • Han, A-Gun;Park, Jae-Hyeon;Choo, Yeon-Gyu
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2013.10a
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    • pp.882-883
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    • 2013
  • With the development of the society, pure electric vehicles will be surely important of the future. Electric vehicle requires various technology like motor driving, battery management, operational efficiencies and so on. Battery management is indeed the most important to enhance battery's performance and life. This paper has deeply discussed and studied on the lithium-polymer battery management system of pure electric vehicle. First of all we have analyzed the characteristic of the lithium-polymer batteries and the factors influenced on the state of charge. Then a logical SOC measuring method has been raised, which is the combination of open circuit voltage and Ah integration. The next we will introduce the design of battery management system, the battery management system performs many functions, such as inspecting the whole process, when it's running cell equalization protecting and diagnosing the battery, estimating the state of charge. The module design style including microcontroller, data aquisition module, charging control module and serial communication module. To arrive at conclusions, the battery management system which this paper has introduced is reliable and economical.

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Thermal Management of a Ni/MH Battery Module for Electric Vehicle (전기자동차용 Ni/MH 전지 Module의 열관리기술)

  • Kim, Junbom
    • Applied Chemistry for Engineering
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    • v.8 no.6
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    • pp.1034-1040
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    • 1997
  • Temperature distribution of battery module consists of 11 batteries of 90Ah rate is analyzed using commercial software NISA II. Equivalent thermal resistance network is used to reduce the number of element in calculating heat transfer through a medium composed of several different thermal conductivity layers. Orthotropic model is used to put different thermal conductivity values according to Cartesian coordinate. Aluminum cooling fins are inserted in the middle of batteries to reduce battery module temperature. The cooling fin at the end of the module does not necessary in reducing maximum temperature. Combined effect of front and side cooling fin is analyzed to reduce the temperature difference among batteries. The maximum temperature difference among batteries is reduced within $3^{\circ}C$ when 4 aluminum cooling tin of 1mm thickness is inserted in battery module.

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Numerical Analysis on the Characteristic of Thermal Distribution for High Temperature Operating Battery Module (고온 작동형 전지모듈 온도분포 특성에 관한 수치해석)

  • Yi, Chung Seob;Lee, Byung Ho
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.12 no.5
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    • pp.102-108
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    • 2013
  • In this study, the experiment result and numerical analysis on temperature distribution of a secondary battery module for high temperature operation type were compared. Because experimental battery has been in danger of explosions, experiment on temperature distribution was carried out using dummy batteries. Study on NAS battery module, which is secondary battery of high temperature operation type, is as follows ; Test result showed that battery's temperature is in steady state uniformly after 8 hours in each section. It is similar to experimental result for temperature distribution from the result of numerical analysis, and it takes about 8.5 hours to the $300^{\circ}C$.

A study of small size battery charging characteristic by serial-parallel connected DSC module (단위 DSC셀의 직병렬 연결을 통한 소형 배터리 충전특성에 관한 연구)

  • Hong, Ji-Tae;Choi, Jin-Young;Seo, Hyun-Woong;Kim, Mi-Jeong;Sim, Ji-Young;Kim, Hee-Je
    • 한국신재생에너지학회:학술대회논문집
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    • 2006.06a
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    • pp.192-194
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    • 2006
  • To elucidate possible challenges for outdoor practical use of dye-sensitized solar cells(DSC), compared with conventional Si solar cells. DSC modules still need the larger area than conventional Si solar modules to attain the same rated output because of lower photoelectron-chemical conversion efficiency. However, using batteries backup systems, the measured data shows that DSCs gathered over 12% more electricity than Si solar cells of the same rated output power in same outdoor condition. Moreover, battery charging time of DSC is about 1 hour faster than same rate of Si solar module. In this paper, 12 single DSC cells prepared for 4 serialized DSC cells was connected in 3 row parallel which have same output power rate of Si solar module. This DSC module was practiced generating characteristic experiment over outdoor daylight condition and applied with PV battery charger by using DC-DC converter. The main advantages of DSC module battery charger as compared with conventional Si solar module one are shorter charge time and lower cost.

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