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      Design of Battery Pack Cooling System using a Peltier Device

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      https://www.riss.kr/link?id=A107113661

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      다국어 초록 (Multilingual Abstract)

      This study evaluates the design of a battery pack thermal control system for an Indonesian electric motor bike. A lithium battery can explode when it reaches a high temperature, so it is necessary to keep the battery pack at no more than +40°C, even ...

      This study evaluates the design of a battery pack thermal control system for an Indonesian electric motor bike. A lithium battery can explode when it reaches a high temperature, so it is necessary to keep the battery pack at no more than +40°C, even in high-temperature environmental conditions. Battery thermal management for the Gesits electric bike was investigated during battery discharge under high-temperature conditions. In this study, a battery discharge test was performed while hot soaking the battery at +40°C; the performance of a battery that was temperature-controlled with the proposed cooling system was compared against a battery without a cooling system. Using the proposed method, the cooling was carried out with a Peltier TEC1-12710 thermoelectric cooling module. From the results, we observed that the Peltier module can improve the performance of an electric vehicle by up to 6%.

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      목차 (Table of Contents)

      • Abstract
      • 1. Introduction
      • 2. Design of the Proposed Thermal Cooling
      • 3. Numerical Analysis of Heat Transfer in the Battery
      • 4. Experiment Procedures and Results
      • Abstract
      • 1. Introduction
      • 2. Design of the Proposed Thermal Cooling
      • 3. Numerical Analysis of Heat Transfer in the Battery
      • 4. Experiment Procedures and Results
      • 5. Conclusion
      • References
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      참고문헌 (Reference)

      1 Jiang, G, "Thermal optimization of composite phase change material/expanded graphite for Li-ion battery thermal management" 108 : 1119-1125, 2016

      2 Azizi, Y, "Thermal management of a LiFePO4 battery pack at high temperature environment using a composite of phase change materials and aluminum wire mesh plates" 128 : 294-302, 2016

      3 Kim, H. C., "Thermal Management System in Electric vehicle Battery Pack Using Phase Change Material" 807-811, 2019

      4 Zhang CW, "Study on a battery thermal management system based on a thermoelectric effect" 11 (11): 279-, 2018

      5 Xu XM, "Research on the heat dissipation performance of battery pack based on forced air cooling" 240 : 33-41, 2013

      6 He W, "Recent development and application of thermoelectric generator and cooler" 143 : 1-25, 2015

      7 Talluri, Teressa, "Improving Performance of the Lithium Polymer Battery Module Part 2: Investigating Thermal Performance of PCM in Cold Temperature" IEEE 56-58, 2019

      8 Fathabadi H, "High thermal performance lithium-ion battery pack including hybrid active–passive thermal management system for using in hybrid/electric vehicles" 70 : 529-538, 2014

      9 Li X, "Experimental investigation on a thermoelectric cooler for thermal management of a lithium-ion battery module" 2019 : 2019

      10 Kim, Himchan, "Design of Battery Thermal Management Unit with PCM for Electrical Vehicle: Part II: Experimental Investigation on Pouch Type Battery Cell" IEEE 255-258, 2019

      1 Jiang, G, "Thermal optimization of composite phase change material/expanded graphite for Li-ion battery thermal management" 108 : 1119-1125, 2016

      2 Azizi, Y, "Thermal management of a LiFePO4 battery pack at high temperature environment using a composite of phase change materials and aluminum wire mesh plates" 128 : 294-302, 2016

      3 Kim, H. C., "Thermal Management System in Electric vehicle Battery Pack Using Phase Change Material" 807-811, 2019

      4 Zhang CW, "Study on a battery thermal management system based on a thermoelectric effect" 11 (11): 279-, 2018

      5 Xu XM, "Research on the heat dissipation performance of battery pack based on forced air cooling" 240 : 33-41, 2013

      6 He W, "Recent development and application of thermoelectric generator and cooler" 143 : 1-25, 2015

      7 Talluri, Teressa, "Improving Performance of the Lithium Polymer Battery Module Part 2: Investigating Thermal Performance of PCM in Cold Temperature" IEEE 56-58, 2019

      8 Fathabadi H, "High thermal performance lithium-ion battery pack including hybrid active–passive thermal management system for using in hybrid/electric vehicles" 70 : 529-538, 2014

      9 Li X, "Experimental investigation on a thermoelectric cooler for thermal management of a lithium-ion battery module" 2019 : 2019

      10 Kim, Himchan, "Design of Battery Thermal Management Unit with PCM for Electrical Vehicle: Part II: Experimental Investigation on Pouch Type Battery Cell" IEEE 255-258, 2019

      11 Liu Z, "Corrigendum to “Shortcut computation for the thermal management of a large air-cooled battery pack” [Appl. Therm. Eng. 66 (2014) 445–452]" 100 (100): 1133-, 2015

      12 Liu Z, "Corrigendum to “Shortcut computation for the thermal management of a large air-cooled battery pack” [Appl. Therm. Eng. 66 (2014) 445–452]" 100 (100): 1133-, 2015

      13 Pesaran AA, "Battery thermal models for hybrid vehicle simulations" 110 (110): 377-382, 2002

      14 Talluri T, "Analysis of a Battery Pack with a Phase Change Material for the Extreme Temperature Conditions of an Electrical Vehicle" 13 (13): 507-, 2020

      15 Sabbah R, "Active (air-cooled) vs. passive (phase change material) thermal management of high power lithium-ion packs: Limitation of temperature rise and uniformity of temperature distribution" 182 (182): 630-638, 2008

      16 Cheng CH, "A three-dimensional theoretical model for predicting transient thermal behavior of thermoelectric coolers" 53 (53): 2001-2011, 2010

      17 Wang, Q, "A critical review of thermal management models and solutions of lithium-ion batteries for the development of pure electric vehicles" 64 : 106-128, 2016

      18 Bandhauer TM, "A critical review of thermal issues in lithium-ion batteries" 158 (158): R1-25, 2011

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      유사연구자 (20) 활용도상위20명

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2018-05-01 평가 SCOPUS 등재 (기타) KCI등재
      2016-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
      2014-01-21 학회명변경 영문명 : The Institute Of Electronics Engineers Of Korea -> The Institute of Electronics and Information Engineers
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0 0 0
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
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