Direct Current Simulation in Acrylic Box Using 3D Finite Element Method

被引:0
作者
Laksono, Y. A. [1 ]
Zulaikah, S. [1 ]
Sunaryo, S. [2 ]
Heriyanto, H. [1 ]
Hidayat, S. [1 ]
机构
[1] Univ Negeri Malang, Dept Phys, Malang 65145, Indonesia
[2] Univ Brawijaya, Dept Phys, Malang 65145, Indonesia
来源
PROCEEDINGS OF THE 4TH INTERNATIONAL SYMPOSIUM ON CURRENT PROGRESS IN MATHEMATICS AND SCIENCES (ISCPMS2018) | 2019年 / 2168卷
关键词
3D; acrylic box; Direct current simulation; finite element method;
D O I
10.1063/1.5132432
中图分类号
O1 [数学];
学科分类号
0701 ; 070101 ;
摘要
Direct current simulations have been carried out using the 3D finite element method in an acrylic box. The purpose of the simulation is to find out the potential distribution of the box when the medium inside is injected direct current. From this distribution, it can be seen which areas can be used to conduct geoelectric acquisitions in an acrylic box. The results of the simulation are used as a reference for building media not only for geoelectric research but also for education by using acrylic box. The research method is comparing the potential distribution of infinitive box simulations that represent the condition of the earth to the potential distribution of acrylic box. The results shows that the experiment must be carried out right in the middle of the box within in line electrodes configuration.
引用
收藏
页数:6
相关论文
共 50 条
[21]   Experimental and finite element simulation of natural rubber foams using real 3D structures [J].
Heydari, Amirhosein ;
Vahidifar, Ali ;
Esmizadeh, Elnaz ;
Rodrigue, Denis .
POLYMER, 2020, 197
[22]   A finite element method for 3-D eddy current problems using an iterative approach [J].
Kanayama, H ;
Tagami, D ;
Saito, M ;
Take, T ;
Asakawa, S .
INTERNATIONAL JOURNAL OF COMPUTATIONAL FLUID DYNAMICS, 2001, 15 (01) :81-88
[23]   Iceball growth 3D simulation model based on finite element method for hepatic cryoablation planning [J].
Li, Shengwei ;
Zhang, Yumeng ;
Zhou, Fanyu ;
Xu, Sheng ;
Wang, Yufeng ;
Cheng, Lin ;
Bie, Zhixin ;
Li, Bin ;
Li, Xiao-Guang .
BMC GASTROENTEROLOGY, 2025, 25 (01)
[24]   3D Simulation-Based Acoustic Wave Resonator Analysis and Validation Using Novel Finite Element Method Software [J].
Vidana Morales, Ruth Yadira ;
Ortega Cisneros, Susana ;
Camacho Perez, Jose Rodrigo ;
Sandoval Ibarra, Federico ;
Casas Carrillo, Ricardo .
SENSORS, 2021, 21 (08)
[25]   Design study on photoacoustic probe to detect prostate cancer using 3D Monte Carlo simulation and finite element method [J].
El-Gohary S.H. ;
Metwally M.K. ;
Eom S. ;
Jeon S.H. ;
Byun K.M. ;
Kim T.-S. .
Biomedical Engineering Letters, 2014, 4 (3) :250-257
[26]   Intraoperative 3D Finite Element Computation Using CUDA [J].
Strbac, Vukasin ;
Vander Sloten, Jos ;
Famaey, Nele .
6TH EUROPEAN CONFERENCE OF THE INTERNATIONAL FEDERATION FOR MEDICAL AND BIOLOGICAL ENGINEERING, 2015, 45 :371-+
[27]   3D bra and human interactive modeling using finite element method for bra design [J].
Sun, Yue ;
Yick, Kit-lun ;
Yu, Winnie ;
Chen, Lihua ;
Lau, Newman ;
Jiao, Wanzhong ;
Zhang, Shichen .
COMPUTER-AIDED DESIGN, 2019, 114 :13-27
[28]   Airflow Analysis of Radiofrequency Ablation for Asthma Therapy by using 3D Finite Element Method [J].
Ruxsapong, P. ;
Phasukkit, P. ;
Tungjitkusolmun, S. ;
Prasantamrongsiri, S. ;
Sanpanich, A. .
6TH BIOMEDICAL ENGINEERING INTERNATIONAL CONFERENCE (BMEICON 2013), 2013,
[29]   Calculation of 3D stationary magnetic fields by finite element method [J].
Shulzhenko, N. G. ;
Pantelyat, M. G. ;
Rudenko, E. K. ;
Saphonov, A. N. .
ELECTRICAL ENGINEERING & ELECTROMECHANICS, 2009, (05) :33-+
[30]   ON APPLICATION OF FINITE ELEMENT METHOD FOR APPROXIMATION OF 3D FLOW PROBLEMS [J].
Svacek, P. ;
Horacek, J. .
TOPICAL PROBLEMS OF FLUID MECHANICS 2015, 2015, :175-182
12345