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Modeling of Galvanic Interactions between AA5083 and Steel under Atmospheric Condition

D. Mizuno, Y. Shi, and R. Kelly
University of Virginia
Charlottesville, VA

Aluminum alloys 5000 series are widely used within the cabins of ships. These aluminum alloys are often joined via steel bolts. There is thus a concern that galvanic interactions will exacerbate corrosion of the aluminum alloys. In this study, a model of the galvanic corrosion between aluminum alloy AA5083 and steel under atmospheric conditions was built. The Nernst-Plank equation and the ...

热管与相变材料相结合的锂电池热管理研究

江智元 [1], 王琼 [1],
[1] 西安交通大学,西安,中国

引言 采用相变材料的汽车电池热管理技术已经被广泛研究,利用相变材料的相变潜热对电池进行温控,能有效降低电池高倍率工作条件下的电池温升,提高温度均匀性[1,2]。热管作为一种高导热,紧凑型,形式灵活的换热器件,也被用于电池热管理之中[3,4]。本文针对相变材料与热管相结合的换热结构,对该结构的换热特点,以及对影响该结构换热效果的相关参数进行了数值模拟研究。 COMSOL Multiphysics® 的使用 利用 COMSOL Multiphysics 中的电化学模块和传热模块,建立了二维的电池-热管-相变材料“三明治”结构(图1)。电池部分采用了热-电化学耦合的电池产热模型,热管采用了三层结构的烧结热管模型。 结果 对于耦合换热模块而言,热管冷端的散热情况和相变材料的厚度对模块的换热效果影响较大。如图2所示,电池的温度随着热管冷端换热系数的提高而下降,温度下降并非线性 ...

Simulation of C-MEMS Based Enzymatic Biofuel Cell

Y. Parikh, V. Penmatsa, J. Yang, and C. Wang

Department of Mechanical & Material Science Engineering, Florida International University, Miami, FL, USA

An Enzymatic Biofuel Cell (EBFC) converts the chemical energy in biological fuels into electricity. In this work, we optimize the performance of the Carbon-Micro Electro Mechanical system in an EBFC by using COMSOL Multiphysics. With a simple model, we realized that most of the glucose reacts with enzymes at the top of the electrode posts, while the bottoms of the posts remain deficient of the ...

Electrical Behaviour of a Li-ion Polymer Battery

P. Alamar[1], J. Esarte[1]
[1]Fundación CETENA, Navarra, Spain

With a view to estimating electrical characteristics of a Polymer Li-ion Battery during specific charge and discharge conditions, a COMSOL Multiphysics® model has been developed that accounts for electrochemical phenomena inside the device. Cell model has been created using the Li-Ion Battery interface, customizing material properties and electrochemical reactions. The electrochemical parameters ...

Numerical Modeling of Alkaline Fuel Cell

S. Dudi[1], R. K. Krishnan[2]
[1]IIT Madras, Chennai, Tamil Nadu, India
[2] ARCI, IITM Research Park, Chennai, Tamil Nadu, India

A fuel cell is an efficient and clean alternative power source of energy. Alkaline anion exchange membrane (AAEM) fuel cells are one in which conduction of oH- (hydroxyl ion) take place. The advantages of using alkaline fuel cells over proton exchange membrane fuel cells is that electrochemical kinetics is fast and alkaline environment is friendly for catalysts. Experiments performed at ...

High-Temperature Sodium/Metal Chloride Storage Battery

M. Vallance[1], and R. White[2]
[1]General Electric Global Research Center, Niskayuna, NY, USA
[2]Department of Chemical Engineering, University of South Carolina, Columbia, SC, USA

Sodium/metal chloride storage batteries, used in hybrid propulsion applications, provide high energy and power densities safely and reliably. To understand the dynamics of electrochemical cycling, a high-temperature sodium/ferrous chloride storage cell was modeled in two dimensions. The time-dependent solution shows that a reaction front, starting at the interface with the negative electrode, ...

FEM Simulation of the Scanning Electrochemical Potential Microscopy (SECPM)

R. Hamou, P. Biedermann, M. Rohwerder, and A. Blumeneau
Max-Planck-Institut für Eisenforschung GmbH, Düsseldorf, Germany

The present work focuses on modeling a new experimental technique: Scanning Electro-chemical Potential Microscopy (SECPM), which is used to probe the potential profile of the electric double layer (EDL). We used an electrostatic approach to compute the EDL potential measured within the metallic probe. Also, we investigated the effect of the interaction of the electrode/probe double layers on the ...

Modeling of HTPEM Fuel Cell Start-Up Process by Using COMSOL Multiphysics

Y. Wang[1], D. Uwe Sauer[1]
[1]Electrochemical Energy Conversion and Storage Systems, Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, Aachen, Germany

HTPEM fuel cells are considered to be the next generation fuel cells. The electrochemical kinetics for electrode reactions are enhanced by using PBI membrane at an operation temperature between 160-180 °C comparing to LTPEM fuel cells. But starting HTPEM fuel cells from room temperature to an operation temperature is a challenge. In this work, using preheated air to heat up the fuel cells ...

Numerical Modelling of Electrophoresis Applied to Restoration of Archaeological Organic Materials

J. Caire[1], A. Bouh[1], and E. Guilminot[2]
[1]LEPMI, UMR 5631, INPG - CNRS, Saint Martin d’Hères, France
[2]EPCC, Arc'Antique, Nantes, France

Restoration of archaeological materials from oceans is a major activity of Arc’ Antique. Organic materials such as wood, tissues, leathers, papers and ceramics found in sea water are always impregnated with salts. Rinsing such archaeological objects with pure water to extract the salts takes too long, so electrophoresis was used to improve the salt extraction. The objective of this ...

Optimizing Electrode Surface Area by COMSOL Multiphysics®

B K SRIHARI[1], Dr K Nagarajan[1], Dr B Prabhakar Reddy[1], P VENKATESH[1]
[1]Indira Gandhi Centre for Atomic Research, Kalpakkam, Tamil Nadu, India

In the design of electrorefiner, Working electrode and Counter electrode surface areas are very important. The main aim of this study is to understand the effect of the ratio of Anode to cathode Surface areas in an electrorefining cell. Application of this model to design electrorefiner for metallic spent nuclear fuel is discussed with respect to Uranium recovery. Shaping of real anode surface ...