Fouling in a Steam Cracker Convection Section Part 1: A Hybrid CFD-1D Model to Obtain Accurate Tube Wall Temperature Profiles

Pieter Verhees; Abdul Rahman Akhras; Kevin M. Van Geem; Geraldine J. Heynderickx

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Fouling in a Steam Cracker Convection Section Part 1: A Hybrid CFD-1D Model to Obtain Accurate Tube Wall Temperature Profiles

机译：蒸汽裂化器对流部分的结垢：第1部分：获得准确管壁温度曲线的混合CFD-1D模型

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To study fouling in steam cracker convection section tubes, accurate tube wall temperature profiles are needed. In this work, tube wall temperature profiles are calculated using a hybrid model, combining a one-dimensional (1D) process gas side model and a computational fluid dynamics (CFD) flue gas side model. The CFD flue gas side model assures the flue gas side accuracy, accounting for local temperatures, while the 1D process gas side model limits the computational cost. Flow separation in the flue gas side at the upper circumference of each tube suggests the need for a compartmentalized 1D approach. A considerable effect is observed. The hybrid CFD-1D model provides accurate tube wall temperature profiles in a reasonable simulation time, a first step towards simulation-based design of more efficient steam cracker convection sections.

机译：为了研究蒸汽裂解装置对流型管的结垢，需要精确的管壁温度曲线。在这项工作中，使用混合模型，结合一维（1D）工艺气体侧模型和计算流体力学（CFD）烟气侧模型，计算了管壁温度分布。 CFD烟气侧模型可确保烟气侧精度（考虑局部温度），而一维工艺气侧模型会限制计算成本。在每个管的上圆周处的烟气侧中的流动分离表明需要分隔的一维方法。观察到相当大的效果。混合CFD-1D模型可在合理的仿真时间内提供准确的管壁温度分布，这是朝着基于仿真设计更高效的蒸汽裂解器对流段的第一步。

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来源
《Heat Transfer Engineering》 |2020年第5期|127-137|共11页
作者
Pieter Verhees; Abdul Rahman Akhras; Kevin M. Van Geem; Geraldine J. Heynderickx;
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作者单位

Laboratory for Chemical Technology Ghent University Gent Belgium;

Saudi Aramco Oil Company R&D Center Dhahran Saudi Arabia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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1. Fouling in a Steam Cracker Convection Section Part 2: Coupled Tube Bank Simulation using an Improved Hybrid CFD-1D Model [J] . Shekhar R. Kulkarni, Pieter Verhees, Abdul R. Akhras, Heat Transfer Engineering . 2020,第15a18期

机译：蒸汽裂纹对流部分污垢第2部分：耦合管库模拟使用改进的混合CFD-1D模型
2. Application of Threshold Model with Various Tube Wall Temperatures for Crude Oil Preheat Train Fouling [J] . Jafari Nasr Mohammad Reza, Majidi Givi Mahdi Iranian Journal of Chemistry and Chemical Engineering . 2006,第3期

机译：不同管壁温度阈值模型在原油预热列车结垢中的应用
3. Numerical modeling of oxygen diffusion in the wall thickness of Low-Tin Zircaloy-4 fuel cladding tube during high temperature (1100-1250 degrees C) steam oxDEation [J] . Corvalan-Moya C, Desgranges C, Toffolon-Masclet C, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2010,第3期

机译：低锡Zircaloy-4燃料包壳管在高温（1100-1250摄氏度）蒸汽氧化过程中氧气扩散的壁厚数值模拟
4. Tube Fouling and the Effects on Waste Heat Boiler Tube Wall Temperature [C] . Matthew D. Bailey, Steven M. Fulk, Clayton E. Jones Laurance Reid Gas Conditioning Conference . 2018

机译：管污垢与废热锅炉管壁温的影响
5. The thermalhydraulics of tube-support fouling in nuclear steam generators [D] . Rummens, Helena Elisabeth Cornelia. 1999

机译：核蒸汽发生器中管支撑污垢的热氢气
6. Modeling Cyclic Fatigue Hysteresis Loops of 2D Woven Ceramic Matrix Composites at Elevated Temperatures in Steam [O] . Longbiao Li 2016

机译：高温蒸汽中二维编织陶瓷基复合材料的循环疲劳磁滞回线建模
7. Fouling in a Steam Cracker Convection Section Part 1: A Hybrid CFD-1D Model to Obtain Accurate Tube Wall Temperature Profiles [O] . Pieter Verhees, Abdul Rahman Akhras, Kevin M. Van Geem, 2019

机译：在蒸汽裂纹对流部分中污染部分1：混合CFD-1D模型，以获得精确的管壁温度型材
8. WALL TEMPERATURES IN A TUBE WITH FORCED CONVECTION, INTERNAL RADIATION EXCHANGE, AND AXIAL WALL HEAT CONDUCTION [R] . Robert Siegel, Edward G. Keshock 1964

机译：带有强制对流，内部辐射交换和轴向壁热传导的管壁温度

Fouling in a Steam Cracker Convection Section Part 1: A Hybrid CFD-1D Model to Obtain Accurate Tube Wall Temperature Profiles

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