MODELING AND SIMULATION OF BIOHEAT POWERED SUBCUTANEOUS THERMOELECTRIC GENERATOR

被引:0
作者
Verma, Ujjwal [1 ]
Bernhardt, Jakob [1 ]
Hohlfeld, Dennis [1 ]
机构
[1] Univ Rostock, Inst Elect Appliances & Circuits, Rostock, Germany
来源
32ND EUROPEAN CONFERENCE ON MODELLING AND SIMULATION (ECMS 2018) | 2018年
关键词
Thermoelectric generator; Seebeck effect; Bioheat; Medical implants;
D O I
暂无
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
Electrically active implants are gaining interest for an aging European population. The current generation of implants are powered by batteries that have limited lifetime; once depleted they require surgical reinterventions for their replacement. In this paper, we present a multi-physical model of a thermoelectric generator that utilizes the subcutaneous temperature gradient. The gained electrical power can be used to supply an electrically active implant. Furthermore, this paper studies various parameters that influence the temperature gradient. We implemented a simple human tissue model and a more detailed geometry model based on segmented magnetic resonance imaging (MRI) data.
引用
收藏
页码:381 / 385
页数:5
相关论文
共 50 条
  • [31] Simulation of thermoelectric-hydraulic performance of a thermoelectric power generator with longitudinal vortex generators
    Ma, Ting
    Pandit, Jaideep
    Ekkad, Srinath V.
    Huxtable, Scott T.
    Wang, Qiuwang
    [J]. ENERGY, 2015, 84 : 695 - 703
  • [32] High-Performance Stretchable Thermoelectric Generator for Self-Powered Wearable Electronics
    Fan, Wusheng
    An, Zijian
    Liu, Feng
    Gao, Ziheng
    Zhang, Min
    Fu, Chenguang
    Zhu, Tiejun
    Liu, Qingjun
    Zhao, Xinbing
    [J]. ADVANCED SCIENCE, 2023, 10 (12)
  • [33] Development of a High-Capacity Portable Biomass-Combustion-Powered Thermoelectric Generator
    Li, Guoneng
    Ying, Jie
    Yi, Minbo
    Zheng, Youqu
    Tang, Yuanjun
    Guo, Wenwen
    [J]. ENGINEERING, 2023, 24 : 192 - 201
  • [34] Hybrid Photovoltaic-Thermoelectric Generator Powered Synchronous Reluctance Motor for Pumping Applications
    Ibrahim, Mohamed N.
    Rezk, Hegazy
    Al-Dahifallah, Mujahed
    Sergeant, Peter
    [J]. IEEE ACCESS, 2019, 7 : 146979 - 146988
  • [35] Natural Gas Pressure Reduction Station Self-powered by Fire Thermoelectric Generator
    Yupeng Wang
    Xiao Tong
    Hongmei Wang
    Junfeng Qiu
    Limei Shen
    [J]. Journal of Thermal Science, 2022, 31 : 840 - 853
  • [36] Micro combined heat and power system based on stove-powered thermoelectric generator
    Li Guoneng
    Zheng Youqu
    Lv Hongkun
    Hu Jiangen
    Li Jian
    Guo Wenwen
    [J]. RENEWABLE ENERGY, 2020, 155 : 160 - 171
  • [37] Natural Gas Pressure Reduction Station Self-powered by Fire Thermoelectric Generator
    Wang, Yupeng
    Tong, Xiao
    Wang, Hongmei
    Qiu, Junfeng
    Shen, Limei
    [J]. JOURNAL OF THERMAL SCIENCE, 2022, 31 (03) : 840 - 853
  • [38] Modeling a Thermoelectric Generator Applied to Diesel Automotive Heat Recovery
    Espinosa, N.
    Lazard, M.
    Aixala, L.
    Scherrer, H.
    [J]. JOURNAL OF ELECTRONIC MATERIALS, 2010, 39 (09) : 1446 - 1455
  • [39] Modeling, Experimental Study on the Heat Transfer Characteristics of Thermoelectric Generator
    Ze-Guang Zhou
    Dong-Sheng Zhu
    Hong-Xia Wu
    Hong-Sheng Zhang
    [J]. JournalofThermalScience, 2013, 22 (01) : 48 - 54
  • [40] Modeling, Experimental Study on the Heat Transfer Characteristics of Thermoelectric Generator
    Zhou, Ze-Guang
    Zhu, Dong-Sheng
    Wu, Hong-Xia
    Zhang, Hong-Sheng
    [J]. JOURNAL OF THERMAL SCIENCE, 2013, 22 (01) : 48 - 54
12345