Data supporting: Wet particle collisions simulated using the Local Front Reconstruction Method, a DNS approach

This dataset contains the data supporting the publication "Wet particle collisions simulated using the Local Front Reconstruction Method, a DNS approach" published in Chemical Engineering Science. In this work, the collision of a wet and dry particle is simulated using Direct Numerical Simulations. In this framework, the Local Front Reconstruction Method, a Front Tracking approach, is used in combination with the Immersed Boundary Method. The data supporting the figures is included as follows:<br>4_StokesFlow.zip: raw data and postprocessing for Stokes Flow and Rotating tests in Figure 1 and Figure 25_DragOnSphere.zip: raw data and postprocessing for simulation of the flow around a sphere at different Re compared to literature in Figure 35_Ten Cate.zip: raw data and postprocessing for the test case where a sphere is settling in a viscous liquid in Figure 46_LFRMGridstudy.zip: raw data and postprocessing for grid sensitivity analysis in Figure 6 and 77_SettlingParticle.zip : raw data and postprocessing for the settling of a wet particle during first step of the collision in Figure 9 and 10a7_Results.zip: raw data and postprocessing for the comparison with the experiments in Figure 12, 14, 16, 18, and 19 and the collision parameters in Figure 20 and Table 6<br>Affiliation of authorsEindhoven University of Technology, Department of Chemical Engineering: A.H. Huijgen, T.J.A. Janssen, J.A.M. Kuipers, M.W. BaltussenHamburg University of Technology, Institute of Solids Process Engineering and Particle Technology: F. Bunke, S. Pietsch-Braune, S. Heinrich

本数据集支撑发表于《Chemical Engineering Science》的论文《采用直接数值模拟方法结合局部前沿重构法模拟湿颗粒碰撞》。本研究采用直接数值模拟（Direct Numerical Simulations, DNS）方法，对湿颗粒与干颗粒的碰撞过程开展数值仿真。研究框架中，前沿追踪类方法——局部前沿重构法（Local Front Reconstruction Method, LFRM）与浸入边界法（Immersed Boundary Method）被结合使用。支撑各配图的数据集如下：<br>4_StokesFlow.zip：包含图1与图25中斯托克斯流与旋转测试的原始数据及后处理结果<br>25_DragOnSphere.zip：包含图3中不同雷诺数（Re）下球体绕流仿真的原始数据及后处理结果，该结果与已有文献的计算结果进行了对比<br>35_Ten Cate.zip：包含图4中球体在粘性液体中沉降测试案例的原始数据及后处理结果<br>46_LFRMGridstudy.zip：包含图6与图7中的网格敏感性分析相关原始数据及后处理结果<br>7_SettlingParticle.zip：包含图9与图10a中碰撞第一步湿颗粒沉降过程的原始数据及后处理结果<br>7_Results.zip：包含图12、14、16、18、19中与实验结果对比的原始数据及后处理结果，以及图20与表6中碰撞相关参数的计算结果<br>作者所属机构：<br>埃因霍温理工大学化学工程系：A.H. Huijgen、T.J.A. Janssen、J.A.M. Kuipers、M.W. Baltussen<br>汉堡工业大学固体过程工程与颗粒技术研究所：F. Bunke、S. Pietsch-Braune、S. Heinrich