Reference List
Capture the reference list for an article inside a <ref-list>
element.
The
<ref-list> element must contain a
@content-type attribute identifying the style of reference list. The
allowed values are:- numerical
- alphabetical
- labelled
If the <ref-list> has a title include it in a child <title>
element.
Each <ref-list> must contain at least one
child <ref> element.
Example
<ref-list content-type="alphabetical"> <title>References</title> <ref id="fdrace37cbib1"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Anderson</surname> <given-names>P D</given-names> </name> <name> <surname>Galaktionov</surname> <given-names>O S</given-names> </name> <name> <surname>Peters</surname> <given-names>G W M</given-names> </name> <name> <surname>van de Vosse</surname> <given-names>F N</given-names> </name> <name> <surname>Meijer</surname> <given-names>H E</given-names> </name> </person-group> <year>2000a</year> <article-title>Mixing of non-newtonian fluids in time-periodic cavity flows</article-title> <source>J. Non-Newton. Fluid Mech.</source> <volume>93</volume> <fpage>265</fpage> <lpage>86</lpage> <page-range>265–86</page-range> </element-citation> </ref> <ref id="fdrace37cbib2"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Anderson</surname> <given-names>P D</given-names> </name> <name> <surname>Galaktionov</surname> <given-names>O S</given-names> </name> <name> <surname>Peters</surname> <given-names>G W</given-names> </name> <name> <surname>van de Vosse</surname> <given-names>F N</given-names> </name> <name> <surname>Meijer</surname> <given-names>H E</given-names> </name> </person-group> <year>2000b</year> <article-title>Chaotic fluid mixing in non-quasi-static time-periodic cavity flows</article-title> <source>Int. J. Heat Fluid Flow</source> <volume>21</volume> <fpage>176</fpage> <lpage>85</lpage> <page-range>176–85</page-range> <pub-id pub-id-type="doi">10.1016/S0142-727X(99)00073-9</pub-id> </element-citation> </ref> <ref id="fdrace37cbib3"> <element-citation publication-type="book"> <person-group person-group-type="author"> <name> <surname>Ayachit</surname> <given-names>U</given-names> </name> </person-group> <year>2015</year> <source>The Paraview Guide: A Parallel Visualization Application</source> <publisher-name>Kitware</publisher-name> </element-citation> </ref> <ref id="fdrace37cbib4"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Bhopalam</surname> <given-names>S R</given-names> </name> <name> <surname>Perumal</surname> <given-names>D A</given-names> </name> <name> <surname>Yadav</surname> <given-names>A K</given-names> </name> </person-group> <year>2018</year> <article-title>Computation of fluid flow in double sided cross-shaped lid-driven cavities using lattice Boltzmann method</article-title> <source> Eur. J. Mech. <named-content content-type="jnl-part">B</named-content> </source> <volume>70</volume> <fpage>46</fpage> <lpage>72</lpage> <page-range>46–72</page-range> <pub-id pub-id-type="doi">10.1016/j.euromechflu.2018.01.006</pub-id> </element-citation> </ref> <ref id="fdrace37cbib5"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Bhopalam</surname> <given-names>S R</given-names> </name> <name> <surname>Perumal</surname> <given-names>D A</given-names> </name> <name> <surname>Yadav</surname> <given-names>A K</given-names> </name> </person-group> <year>2021</year> <article-title>Computational appraisal of fluid flow behavior in two-sided oscillating lid-driven cavities</article-title> <source>Int. J. Mech. Sci.</source> <volume>196</volume> <elocation-id content-type="artnum">106303</elocation-id> <pub-id pub-id-type="doi">10.1016/j.ijmecsci.2021.106303</pub-id> </element-citation> </ref> <ref id="fdrace37cbib6"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Chen</surname> <given-names>S</given-names> </name> <name> <surname>Doolen</surname> <given-names>G D</given-names> </name> </person-group> <year>1998</year> <article-title>Lattice Boltzmann method for fluid flows</article-title> <source>Annu. Rev. Fluid Mech.</source> <volume>30</volume> <fpage>329</fpage> <lpage>64</lpage> <page-range>329–64</page-range> <pub-id pub-id-type="doi">10.1146/annurev.fluid.30.1.329</pub-id> </element-citation> </ref> <ref id="fdrace37cbib7"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>d’Humiéres</surname> <given-names>D</given-names> </name> <etal>et al</etal> </person-group> <year>2002</year> <article-title>Multiple-relaxation-time lattice Boltzmann models in three dimensions</article-title> <source> Phil. Trans. R. Soc. <named-content content-type="jnl-part">A</named-content> </source> <volume>360</volume> <fpage>437</fpage> <lpage>51</lpage> <page-range>437–51</page-range> <pub-id pub-id-type="doi">10.1098/rsta.2001.0955</pub-id> </element-citation> </ref> <ref id="fdrace37cbib8"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Guermond</surname> <given-names>J-L</given-names> </name> <name> <surname>Migeon</surname> <given-names>C</given-names> </name> <name> <surname>Pineau</surname> <given-names>G</given-names> </name> <name> <surname>Quartapelle</surname> <given-names>L</given-names> </name> </person-group> <year>2002</year> <article-title>Start-up flows in a three-dimensional rectangular driven cavity of aspect ratio 1:1:2 at Re = 1000</article-title> <source>J. Fluid Mech.</source> <volume>450</volume> <fpage>169</fpage> <lpage>99</lpage> <page-range>169–99</page-range> <pub-id pub-id-type="doi">10.1017/S0022112001006383</pub-id> </element-citation> </ref> <ref id="fdrace37cbib9"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Guj</surname> <given-names>G</given-names> </name> <name> <surname>Stella</surname> <given-names>F</given-names> </name> </person-group> <year>1993</year> <article-title>A vorticity-velocity method for the numerical solution of 3D incompressible flows</article-title> <source>J. Comput. Phys.</source> <volume>106</volume> <fpage>286</fpage> <lpage>98</lpage> <page-range>286–98</page-range> <pub-id pub-id-type="doi">10.1016/S0021-9991(83)71108-3</pub-id> </element-citation> </ref> <ref id="fdrace37cbib10"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Hu</surname> <given-names>Z</given-names> </name> <name> <surname>Zheng</surname> <given-names>X</given-names> </name> <name> <surname>Ma</surname> <given-names>Q-W</given-names> </name> <name> <surname>Duan</surname> <given-names>W-Y</given-names> </name> </person-group> <year>2015</year> <article-title>Fluid flow in a cavity driven by an oscillating lid by an improved incompressible SPH</article-title> <source>Proc. Eng.</source> <volume>126</volume> <fpage>275</fpage> <lpage>9</lpage> <page-range>275–9</page-range> <pub-id pub-id-type="doi">10.1016/j.proeng.2015.11.241</pub-id> </element-citation> </ref> <ref id="fdrace37cbib11"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Iwatsu</surname> <given-names>R</given-names> </name> <name> <surname>Hyun</surname> <given-names>J M</given-names> </name> <name> <surname>Kuwahara</surname> <given-names>K</given-names> </name> </person-group> <year>1992</year> <article-title>Numerical simulation of flows driven by a torsionally oscillating lid in a square cavity</article-title> <source>J. Fluids Eng.</source> <volume>114</volume> <fpage>143</fpage> <lpage>51</lpage> <page-range>143–51</page-range> <pub-id pub-id-type="doi">10.1115/1.2910008</pub-id> </element-citation> </ref> <ref id="fdrace37cbib12"> <element-citation publication-type="other"> <person-group person-group-type="author"> <name> <surname>Krause</surname> <given-names>M J</given-names> </name> <etal>et al</etal> </person-group> <year>2019</year> <article-title>OpenLB release 1.3: open source lattice Boltzmann code</article-title> <comment> (available at: <ext-link ext-link-type="uri" xlink:href="https://zenodo.org/record/3625967">https://zenodo.org/record/3625967</ext-link> ) </comment> </element-citation> </ref> <ref id="fdrace37cbib13"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Krause</surname> <given-names>M J</given-names> </name> <etal>et al</etal> </person-group> <year>2020</year> <article-title>OpenLB—open source lattice Boltzmann code</article-title> <source>Comput. Math. Appl.</source> <volume>81</volume> <fpage>258</fpage> <lpage>88</lpage> <page-range>258–88</page-range> <pub-id pub-id-type="doi">10.1016/j.camwa.2020.04.033</pub-id> </element-citation> </ref> <ref id="fdrace37cbib14"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Ku</surname> <given-names>H C</given-names> </name> <name> <surname>Hirsh</surname> <given-names>R S</given-names> </name> <name> <surname>Taylor</surname> <given-names>T D</given-names> </name> </person-group> <year>1987</year> <article-title>A pseudospectral method for solution of the three-dimensional incompressible Navier-Stokes equations</article-title> <source>J. Comput. Phys.</source> <volume>70</volume> <fpage>439</fpage> <lpage>62</lpage> <page-range>439–62</page-range> <pub-id pub-id-type="doi">10.1016/0021-9991(87)90190-2</pub-id> </element-citation> </ref> <ref id="fdrace37cbib15"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Lallemand</surname> <given-names>P</given-names> </name> <name> <surname>Luo</surname> <given-names>L-S</given-names> </name> </person-group> <year>2000</year> <article-title>Theory of the lattice Boltzmann method: dispersion, dissipation, isotropy, Galilean invariance and stability</article-title> <source> Phys. Rev. <named-content content-type="jnl-part">E</named-content> </source> <volume>61</volume> <fpage>6546</fpage> <lpage>62</lpage> <page-range>6546–62</page-range> <pub-id pub-id-type="doi">10.1103/PhysRevE.61.6546</pub-id> </element-citation> </ref> <ref id="fdrace37cbib16"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Lee</surname> <given-names>T</given-names> </name> <name> <surname>Wei</surname> <given-names>L</given-names> </name> <name> <surname>Low</surname> <given-names>H</given-names> </name> </person-group> <year>2001</year> <article-title>Development of an artificial compressibility methodology with implicit LU-SGS method</article-title> <source>Int. J. Comput. Fluid Dyn.</source> <volume>15</volume> <fpage>197</fpage> <lpage>208</lpage> <page-range>197–208</page-range> <pub-id pub-id-type="doi">10.1080/10618560108970029</pub-id> </element-citation> </ref> <ref id="fdrace37cbib17"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Mendu</surname> <given-names>S S</given-names> </name> <name> <surname>Das</surname> <given-names>P K</given-names> </name> </person-group> <year>2013</year> <article-title>Fluid flow in a cavity driven by an oscillating lid—a simulation by lattice Boltzmann method</article-title> <source> Eur. J. Mech. <named-content content-type="jnl-part">B</named-content> </source> <volume>39</volume> <fpage>59</fpage> <lpage>70</lpage> <page-range>59–70</page-range> <pub-id pub-id-type="doi">10.1016/j.euromechflu.2012.12.002</pub-id> </element-citation> </ref> <ref id="fdrace37cbib18"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Pérez</surname> <given-names>J M</given-names> </name> <name> <surname>Aguilar</surname> <given-names>A</given-names> </name> <name> <surname>Theofilis</surname> <given-names>V</given-names> </name> </person-group> <year>2017</year> <article-title>Lattice Boltzmann methods for global linear instability analysis</article-title> <source>Theor. Comput. Fluid Dyn.</source> <volume>31</volume> <fpage>643</fpage> <lpage>64</lpage> <page-range>643–64</page-range> <pub-id pub-id-type="doi">10.1007/s00162-016-0416-7</pub-id> </element-citation> </ref> <ref id="fdrace37cbib19"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Perumal</surname> <given-names>D</given-names> </name> <name> <surname>Dass</surname> <given-names>A</given-names> </name> </person-group> <year>2013</year> <article-title>Application of lattice Boltzmann method for incompressible viscous flows</article-title> <source>Appl. Math. Modelling</source> <volume>37</volume> <fpage>4075</fpage> <lpage>92</lpage> <page-range>4075–92</page-range> <pub-id pub-id-type="doi">10.1016/j.apm.2012.09.028</pub-id> </element-citation> </ref> <ref id="fdrace37cbib20"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Skordos</surname> <given-names>P A</given-names> </name> </person-group> <year>1993</year> <article-title>Initial and boundary conditions for the lattice Boltzmann method</article-title> <source> Phys. Rev. <named-content content-type="jnl-part">E</named-content> </source> <volume>48</volume> <fpage>4823</fpage> <lpage>42</lpage> <page-range>4823–42</page-range> <pub-id pub-id-type="doi">10.1103/PhysRevE.48.4823</pub-id> </element-citation> </ref> <ref id="fdrace37cbib21"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Soh</surname> <given-names>W</given-names> </name> <name> <surname>Goodrich</surname> <given-names>J W</given-names> </name> </person-group> <year>1988</year> <article-title>Unsteady solution of incompressible navier-stokes equations</article-title> <source>J. Comput. Phys.</source> <volume>79</volume> <fpage>113</fpage> <lpage>34</lpage> <page-range>113–34</page-range> <pub-id pub-id-type="doi">10.1016/0021-9991(88)90007-1</pub-id> </element-citation> </ref> <ref id="fdrace37cbib22"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Sriram</surname> <given-names>S</given-names> </name> <name> <surname>Deshpande</surname> <given-names>A P</given-names> </name> <name> <surname>Pushpavanam</surname> <given-names>S</given-names> </name> </person-group> <year>2005</year> <article-title>Analysis of spatiotemporal variations and flow structures in a periodically driven cavity</article-title> <source>J. Fluids Eng.</source> <volume>128</volume> <fpage>413</fpage> <lpage>20</lpage> <page-range>413–20</page-range> <pub-id pub-id-type="doi">10.1115/1.2173289</pub-id> </element-citation> </ref> <ref id="fdrace37cbib23"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Tang</surname> <given-names>L Q</given-names> </name> <name> <surname>Tsang</surname> <given-names>T T</given-names> </name> </person-group> <year>1995</year> <article-title>Transient solutions by a least-squares finite-element method and Jacobi conjugate gradient technique</article-title> <source> Numer. Heat Transfer <named-content content-type="jnl-part">B</named-content> </source> <volume>28</volume> <fpage>183</fpage> <lpage>98</lpage> <page-range>183–98</page-range> <pub-id pub-id-type="doi">10.1080/10407799508928829</pub-id> </element-citation> </ref> <ref id="fdrace37cbib24"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Thai-Quang</surname> <given-names>N</given-names> </name> <name> <surname>Le-Cao</surname> <given-names>K</given-names> </name> <name> <surname>Mai-Duy</surname> <given-names>N</given-names> </name> <name> <surname>Tran</surname> <given-names>C-D</given-names> </name> <name> <surname>Tran-Cong</surname> <given-names>T</given-names> </name> </person-group> <year>2013</year> <article-title>A numerical scheme based on compact integrated-RBFs and Adams–Bashforth/Crank–Nicolson algorithms for diffusion and unsteady fluid flow problems</article-title> <source>Eng. Anal. Bound. Elem.</source> <volume>37</volume> <fpage>1653</fpage> <lpage>67</lpage> <page-range>1653–67</page-range> <pub-id pub-id-type="doi">10.1016/j.enganabound.2013.09.011</pub-id> </element-citation> </ref> <ref id="fdrace37cbib25"> <element-citation publication-type="journal"> <person-group person-group-type="author"> <name> <surname>Wu</surname> <given-names>J-S</given-names> </name> <name> <surname>Shao</surname> <given-names>Y-L</given-names> </name> </person-group> <year>2004</year> <article-title>Simulation of lid-driven cavity flows by parallel lattice Boltzmann method using multi-relaxation-time scheme</article-title> <source>Int. J. Numer. Methods Fluids</source> <volume>46</volume> <fpage>921</fpage> <lpage>37</lpage> <page-range>921–37</page-range> <pub-id pub-id-type="doi">10.1002/fld.787</pub-id> </element-citation> </ref> </ref-list>