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Editorial
Journal of Building Physics ( IF 2 ) Pub Date : 2020-01-01 , DOI: 10.1177/1744259119891500 Daekwon Park , Bess Krietemeyer
Journal of Building Physics ( IF 2 ) Pub Date : 2020-01-01 , DOI: 10.1177/1744259119891500 Daekwon Park , Bess Krietemeyer
With this issue, the Journal of Building Physics completes the special issue of the 2018 edition of the International Building Physics Conferences. Following a first selection round, where each session chair evaluated the session papers and proposed papers that should be invited for the special issue, the final selection round fell upon the Guest Editors of the special issue: Assistant Professor Daekwon Park and Assistant Professor Bess Krietemeyer, of the School of Architecture at Syracuse University. As a result of this conference-wide assessment, authors were invited to contribute an original contribution to the journal, and the first five papers were published in the previous issue of the Journal. The remaining two papers of this special issue are presented here. These papers offer examples of how building physics can consider problems at different scales and using different investigative approaches. The papers demonstrate how the building physics community is tackling problems of increasing complexity, thanks to advancements in experimental devices and in computational modeling. The first paper of this issue utilizes computed tomography (CT) and segmentation algorithms to more accurately characterize the three-dimensional (3D) pore structure of building materials. Pore structures have a significant impact on the hygrothermal properties of building materials, and this paper investigates the potentials of using the CT method, which can obtain holistic 3D data in a nondestructive manner. The following paper further develops a 3D image-based model framework to study the relationship between nanoscale pore structures and the effective thermal conductivity. This paper reflects the capacities of computational modeling to characterize nanopore performance parameters, which could facilitate the design of advanced building materials according to specific properties. We would like to thank the organizers of the conference for facilitating and supporting this special issue. We also note the privileged relationship of the Journal with the International Association of Building Physics.
中文翻译:
社论
有了这个问题,Journal of Building Physics 完成了 2018 年国际建筑物理会议的特刊。在第一轮选拔之后,每位会议主席都评估了会议论文和应为特刊邀请的论文,最后一轮选拔由特刊的客座编辑:Daekwon Park 助理教授和 Bess Krietemeyer 助理教授,雪城大学建筑学院。作为这次会议范围评估的结果,作者被邀请为该杂志做出原创贡献,前五篇论文发表在上一期的杂志上。本期特刊的其余两篇论文在此处介绍。这些论文提供了建筑物理学如何考虑不同尺度和使用不同调查方法的问题的例子。由于实验设备和计算建模的进步,这些论文展示了建筑物理学界如何解决日益复杂的问题。本期的第一篇论文利用计算机断层扫描 (CT) 和分割算法来更准确地表征建筑材料的三维 (3D) 孔隙结构。孔隙结构对建筑材料的湿热性能有显着影响,本文研究了使用 CT 方法的潜力,该方法可以以非破坏性方式获得整体 3D 数据。下面的论文进一步开发了一个基于 3D 图像的模型框架,以研究纳米级孔隙结构与有效热导率之间的关系。本文反映了计算建模表征纳米孔性能参数的能力,这有助于根据特定特性设计先进的建筑材料。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。
更新日期:2020-01-01
中文翻译:
社论
有了这个问题,Journal of Building Physics 完成了 2018 年国际建筑物理会议的特刊。在第一轮选拔之后,每位会议主席都评估了会议论文和应为特刊邀请的论文,最后一轮选拔由特刊的客座编辑:Daekwon Park 助理教授和 Bess Krietemeyer 助理教授,雪城大学建筑学院。作为这次会议范围评估的结果,作者被邀请为该杂志做出原创贡献,前五篇论文发表在上一期的杂志上。本期特刊的其余两篇论文在此处介绍。这些论文提供了建筑物理学如何考虑不同尺度和使用不同调查方法的问题的例子。由于实验设备和计算建模的进步,这些论文展示了建筑物理学界如何解决日益复杂的问题。本期的第一篇论文利用计算机断层扫描 (CT) 和分割算法来更准确地表征建筑材料的三维 (3D) 孔隙结构。孔隙结构对建筑材料的湿热性能有显着影响,本文研究了使用 CT 方法的潜力,该方法可以以非破坏性方式获得整体 3D 数据。下面的论文进一步开发了一个基于 3D 图像的模型框架,以研究纳米级孔隙结构与有效热导率之间的关系。本文反映了计算建模表征纳米孔性能参数的能力,这有助于根据特定特性设计先进的建筑材料。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。我们要感谢会议的组织者为本期特刊提供便利和支持。我们还注意到该杂志与国际建筑物理协会的特殊关系。