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首页> 外文期刊>International Journal for Numerical Methods in Fluids >Integrating thermal‐concentration smoothed profile with lattice Boltzmann methods for simulating sedimentation of nonisothermal circular particles
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Integrating thermal‐concentration smoothed profile with lattice Boltzmann methods for simulating sedimentation of nonisothermal circular particles

机译:用晶格Boltzmann方法集成热浓度平滑轮廓,用于模拟非等热圆形颗粒的沉降

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Summary >A thermal‐concentration smoothed profile‐lattice Boltzmann method is proposed to study the effect of the concentration field on the dynamic behavior of nonisothermal cylindrical particles during the sedimentation process. The velocity, temperature, and concentration equations are solved using the lattice Boltzmann method. Moreover, the smoothed profile method is employed to enforce the nonslip boundary condition as well as constant temperature and constant concentration boundary conditions at the particles surfaces. Moreover, the Boussinesq approximation is used to couple the velocities, temperatures, and concentrations fields. The proposed combined method is validated by comparing the present numerical results with those found in the literature, showing good consistency. Then, the effect of the concentration buoyancy on the behavior of nonisothermal particles is discussed. In addition, the effect of Prandtl, Schmidt, and thermal Grashof numbers on the settling process is investigated. The results show that, by adding the effect of concentration, the maximum settling velocity of hot particles is reduced more relative to the cold ones; accordingly, the cold particles are settled faster than the hot ones. Finally, the sedimentation of two particles in a container at high thermal Grashof is investigated. It is shown that, at high thermal Grashof, there is an intense competition between the buoyancy force and gravity for the hot particles. The buoyancy flow generated leads to the reversal of the drafting‐kissing‐tumbling motion of the hot particles, making the particles move upward. </abstract> </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> <div class="translation abstracttxt"> <span class="zhankaihshouqi fivelineshidden" id="abstract"> <span>机译:</span><Abstract Type =“Main”XML:Lang =“en”> <标题类型=“main”>摘要</ title> 提出了一种热浓度平滑的轮廓晶格玻璃晶晶片方法,以研究浓度场对沉降过程中非等热圆柱颗粒动态行为的影响。使用晶格Boltzmann方法解决了速度,温度和浓度方程。此外,采用平滑的轮廓方法来强制颗粒表面的恒定温度和恒定浓度边界条件强制实施。此外,Boussinesq近似用于将速度,温度和浓度场耦合。通过将当前数值结果与文献中的那些进行比较来验证所提出的组合方法,显示出良好的一致性。然后,讨论了浓度浮力对非等热颗粒行为的影响。此外,研究了Prandtl,Schmidt和热垃圾编号对沉降过程的影响。结果表明,通过增加浓度的效果,热颗粒的最大沉降速度相对于寒冷的浓缩速度减少;因此,冷颗粒的稳定性比热颗粒更快。最后,研究了在高热格雷什在容器中的两个颗粒的沉降。结果表明,在高热格雷什,在热颗粒的浮力和重力之间存在强烈的竞争。产生的浮力流量导致热颗粒的起草接吻滚动运动的逆转,使粒子向上移动。</ p> </摘要> </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> </div> <div class="record"> <h2 class="all_title" id="enpatent33" >著录项</h2> <ul> <li> <span class="lefttit">来源</span> <div style="width: 86%;vertical-align: text-top;display: inline-block;"> <a href='/journal-foreign-20811/'>《International Journal for Numerical Methods in Fluids》</a> <b style="margin: 0 2px;">|</b><span>2020年第1期</span><b style="margin: 0 2px;">|</b><span>共24页</span> </div> </li> <li> <div class="author"> <span class="lefttit">作者</span> <p id="fAuthorthree" class="threelineshidden zhankaihshouqi"> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Safa Raziyeh&option=202" target="_blank" rel="nofollow">Safa Raziyeh;</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Soltani Goharrizi Ataallah&option=202" target="_blank" rel="nofollow">Soltani Goharrizi Ataallah;</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Jahanshahi Javaran Ebrahim&option=202" target="_blank" rel="nofollow">Jahanshahi Javaran Ebrahim;</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Jafari Saeed&option=202" target="_blank" rel="nofollow">Jafari Saeed;</a> </p> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zkzz" style="display: none;">展开▼</span> </div> </li> <li> <div style="display: flex;"> <span class="lefttit">作者单位</span> <div style="position: relative;margin-left: 3px;max-width: 639px;"> <div class="threelineshidden zhankaihshouqi" id="fOrgthree"> <p>Department of Chemical EngineeringShahid Bahonar University of KermanKerman Iran;</p> <p>Department of Chemical EngineeringShahid Bahonar University of KermanKerman Iran;</p> <p>Department of Energy Institute of Science and High Technology and Environmental SciencesGraduate University of Advanced TechnologyKerman Iran;</p> <p>Department of Mechanical EngineeringShahid Bahonar University of KermanKerman Iran;</p> </div> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zhdw" style="display: none;">展开▼</span> </div> </div> </li> <li > <span class="lefttit">收录信息</span> <span style="width: 86%;vertical-align: text-top;display: inline-block;"></span> </li> <li> <span class="lefttit">原文格式</span> <span>PDF</span> </li> <li> <span class="lefttit">正文语种</span> <span>eng</span> </li> <li> <span class="lefttit">中图分类</span> <span><a href="https://www.zhangqiaokeyan.com/clc/1155.html" title="流体力学">流体力学;</a></span> </li> <li class="antistop"> <span class="lefttit">关键词</span> <p style="width: 86%;vertical-align: text-top;"> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Boussinesq approximation&option=203" rel="nofollow">Boussinesq approximation;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=concentration&option=203" rel="nofollow">concentration;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=lattice Boltzmann method&option=203" rel="nofollow">lattice Boltzmann method;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=sedimentation&option=203" rel="nofollow">sedimentation;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=smoothed profile method&option=203" rel="nofollow">smoothed profile method;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=thermal&option=203" rel="nofollow">thermal;</a> </p> <div class="translation"> 机译:Boussinesq近似;浓度;晶格Boltzmann方法;沉降;平滑轮廓方法;热; 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. 江苏科技大学学报(自然科学版) </a> </span> <span> . 2013</span><span>,第005期</span> </span> </div> </li> <li> <div> <b>6. </b><a class="enjiyixqcontent" href="/academic-conference-cn_meeting-26923_thesis/020221731133.html">旋转对非圆形扰流柱排换热影响的数值模拟</a> <b>[C]</b> <span> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=于芳芳&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor"> . 于芳芳</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=冯青&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor">,冯青</a> <span> <a href="/conference-cn-26923/" target="_blank" rel="nofollow" class="tuijian_authcolor"> . 第十三届燃烧与传热传质专业学术研讨会 </a> <span> <span> . 2005</span> </span> </div> </li> <li> <div> <b>7. </b><a class="enjiyixqcontent" href="/academic-degree-domestic_mphd_thesis/020315759250.html">基于格子Boltzmann方法的热磁对流数值模拟及POD快速预测</a> <b>[A] </b> <span> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=谢楠&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor"> . 谢楠</a> <span> . 2016</span> </span> </div> </li> </ul> <ul style="display: none;"> <li> <div> <b>1. </b><a class="enjiyixqcontent" href="/patent-detail/06120103958494.html">一种基于晶格Boltzmann模型模拟颗粒周期性运动的流场处理方法</a> <b>[P]</b> . <span> 中国专利: CN111368487A </span> <span> . 2020-07-03</span> </div> </li> <li> <div> <b>2. </b><a class="enjiyixqcontent" href="/patent-detail/06120111955184.html">基于化学势的晶格Boltzmann模型模拟液滴润湿现象的方法</a> <b>[P]</b> . <span> 中国专利: CN111931438A </span> <span> . 2020-11-13</span> </div> </li> <li> <div> <b>3. </b><a class="enjiyixqcontent" href="/patent-detail/06130435028692.html">Method for determining speed of sedimentation and pattern of concentration of particles in fluids, involves determining characteristics of sedimentation, state of flocculation of ferromagnetic particle profile concentration</a> <b>[P]</b> . <span> 外国专利: <!-- --> ES2284347A1 </span> <span> . 2007-11-01</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:确定沉降速度和流体中颗粒浓度模式的方法,涉及确定沉降特性,铁磁颗粒轮廓浓度的絮凝状态 </span> </p> </li> <li> <div> <b>4. </b><a class="enjiyixqcontent" href="/patent-detail/06130437565723.html">Termorresistometro for measuring heat resistance of microorganisms under controlled conditions of temperature, able to simulate conditions of isothermal and nonisothermal treatment.</a> <b>[P]</b> . <span> 外国专利: <!-- --> ES2231030B1 </span> <span> . 2006-07-16</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:Termorresistometro用于在受控温度条件下测量微生物的耐热性,能够模拟等温和非等温处理的条件。 </span> </p> </li> <li> <div> <b>5. </b><a class="enjiyixqcontent" href="/patent-detail/06130414182000.html">METHOD FOR SIMULATING FLUID FLOW BY USING THE LATTICE BOLTZMANN THEORY AND RECORDING MEDIUM FOR PERFORMING THE METHOD</a> <b>[P]</b> . <span> 外国专利: <!-- 韩国专利: --> KR20150091592A </span> <span> . 2015-08-12</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:利用格子Boltzmann理论和记录介质来模拟流体流动的方法 </span> </p> </li> </ul> </div> </div> </div> <div class="theme cardcommon" style="overflow: auto;display:none"> <h3 class="all_title" id="enpatent55">相关主题</h3> <ul id="subject"> </ul> </div> </div> </div> </div> <div class="right rightcon"> <div class="details_img cardcommon clearfix" style="margin-bottom: 10px;display:none;" > </div> </div> </div> <div id="thesis_get_original1" class="downloadBth" style="bottom: 19px;z-index: 999;" onclick="ywcd('0704022975836','4',7,2,1,'',this,24)" class="delivery" prompt="010401" title="通过人工服务将文献原文发送至邮箱" >获取原文</div> <div class="journalsub-pop-up" style="display: none"> <div class="journal-sub"> <h2>期刊订阅</h2> <img 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