アプリケーションギャラリ

This asset contains the model file described in the blog post titled "Approaching an Electrochemical Model from Scratch: Lemon Battery". 詳細を見る

This 3D model example demonstrates the use of the Lead-Acid Battery interface for modeling current distribution in full cell employing a lead-acid battery chemistry. The lead acid battery chemistry uses PbO2 as the positive porous electrode and Pb as the negative porous electrode and ... 詳細を見る

This tutorial example models the currents and the concentration of dissolved metal ions in a battery (corrosion cell) made from an orange and two metal nails. This type of battery is commonly used in chemistry lessons. Instead of an orange, lemons or potatoes can also be used. 詳細を見る

This example simulates the temperature dynamics in cylindrical battery, initially at room temperature, after being placed in an oven. As the temperature increases, various exothermal decomposition reactions are activated, which in turn result in further heating of the battery. 詳細を見る

Indentation tests are commonly used to evaluate the safety of battery cells by assessing the risk of internal short circuits under external mechanical loads. This example demonstrates how to set up such a test, in which an indenter is pressed onto a battery cell, causing large ... 詳細を見る

This app demonstrates the usage of a surrogate model function for predicting the rate capability of an NMC111/graphite battery cell. The rate capability is shown in a Ragone plot. The surrogate function, a Deep Neural Network, has been fitted to a subset of the possible input data ... 詳細を見る

このモデルは, 高レート充電中の角柱型電池の内部温度分布を計算する方法の例を示します. 電気化学は, 熱伝達モデルと結合した集中二電極モデルによって記述されます. 熱伝達モデルには, 集電体および端子におけるジュール熱の影響に加え, ゼリーロールにおける電気化学的加熱 (過電圧による) の寄与も考慮されています. ゼリーロールは, 電池層の構造と寸法を考慮した異方性特性を用いて記述されます. 詳細を見る

Lithium-sulfur (Li-S) batteries are used in niche applications with high demands for specific energy densities, which may be as high as 500-600 Wh/kg. The chemistry is fairly complex, since multiple polysulfide species participate in the various charge transfer reactions. The chemistry ... 詳細を見る

このアプリは, 電池テストサイクル中の NMC111/グラファイトバッテリセルのセル電圧, セル開放電圧, および内部抵抗を予測するための代理モデル関数の使用方法を示します. 代理関数 (ディープニューラルネットワーク) は, 入力データ値のサブセットに適合されています. 入力データ値は, サイクルの4つのセグメントにおける電流とバッテリセルの初期充電状態の5つを設定できます. 代理関数の評価にかかる計算コストが低いため, ノブを使用して入力値を対話的に組み合わせ, セル電圧と内部抵抗を予測できます. 値の組み合わせを選択したら, ... 詳細を見る

This app can be used as a design tool to develop an optimized battery configuration for a specific application. The application computes the capacity, energy efficiency, heat generation, and capacity losses due to parasitic reactions of a battery for a specific load cycle. Various ... 詳細を見る