Thermal and characteristic analysis of shape-stabilization phase change materials by advanced vacuum impregnation method using carbon-based materials

Lee Jongki; Wi Seunghwan; Yun Beom Yeol; Chang Seong Jin; Kim Sumin

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Thermal and characteristic analysis of shape-stabilization phase change materials by advanced vacuum impregnation method using carbon-based materials

机译：采用碳基的先进真空浸渍法对形状稳定相变材料的热敏性和特性分析

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This study was conducted to energy saving in buildings, with TES system. The manufacturing method of Shape-Stabilized Phase Change Materials (SSPCMs) was developed as the advanced vacuum impregnation. The validation was conducted using Activated Carbon (AC), Expanded Graphite (EG) and Exfoliated graphite (xGnP) as supporting materials and n-octadecnae was used as Phase Change Materials (PCMs). Through various experiments, the feasibility when it applied to in building, and thermal performance of this novel manufacturing method have been confirmed. Also, through the energy simulation, only 1 mm thickness of SSPCMs was applied as wall, reduced building energy up to 255.44 kWh. (C) 2018 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.

机译：该研究进行了建筑物的节能，具有TES系统。形成形状稳定相变材料（SSPCMS）的制造方法作为先进的真空浸渍。使用活性炭（AC）进行验证，膨胀石墨（例如）和剥落的石墨（XGNP）作为支撑材料，N-OctAdeCNAE被用作相变材料（PCM）。通过各种实验，已经确认了在建筑物中应用的可行性以及这种新颖的制造方法的热性能。而且，通过能量模拟，仅将1毫米的SSPCMS厚度施加为墙壁，减少建筑能量高达255.44千瓦时。（c）2018年韩国工程和工程化学学会。 elsevier b.v出版。保留所有权利。

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来源
《Journal of industrial and engineering chemistry》 |2019年第2019期|共9页
作者
Lee Jongki; Wi Seunghwan; Yun Beom Yeol; Chang Seong Jin; Kim Sumin;
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作者单位

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Thermal Energy Storage (TES); Latent heat; EnergyPlus; Shape-Stabilized Phase Change Materials (SSPCMs);

机译：热能储存（TES）;潜热;精能;形状稳定相变材料（SSPCMS）;

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1. Thermal and characteristic analysis of shape-stabilization phase change materials by advanced vacuum impregnation method using carbon-based materials [J] . Lee Jongki, Wi Seunghwan, Yun Beom Yeol, Journal of industrial and engineering chemistry . 2019,第期

机译：采用碳基的先进真空浸渍法对形状稳定相变材料的热敏性和特性分析
2. Development of thermal enhanced n-octadecane/porous nano carbon-based materials using 3-step filtered vacuum impregnation method [J] . Lee Jongki, Wi Seunghwan, Jeong Su-Gwang, Thermochimica Acta: An International Journal Concerned with the Broader Aspects of Thermochemistry and Its Applications to Chemical Problems . 2017,第期

机译：使用3步过滤真空浸渍法的热增强的正碳烷/多孔纳米碳基材料的研制
3. Thermal behavior and shape-stabilization of fatty acid eutectics/electrospun carbon nano-felts composite phase change materials enhanced by reduced graphene oxide [J] . Song Xiaofei, Cai Yibing, Wang Weiwei, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2019,第期

机译：脂肪酸光学液/电纺碳纳米纤维复合相变材料的热行为和形状稳定化通过还原氧化物增强
4. DEVELOPMENT AND USE OF IMPREGNATED PHASE CHANGE MATERIALS IN CONCRETE FOR THERMAL COMFORT [C] . A. M. Khudhair, M. M. Farid, J. J. J. Chen, Innovative Equipment and Systems for Comfort and Food Preservation Conference . 2006

机译：热舒适混凝土中浸渍相变材料的开发和使用
5. Heat Transfer Analysis of Encapsulated Phase Change Materials for Thermal Energy Storage [D] . Elmozughi, Ali F. 2014

机译：用于热能存储的封装相变材料的传热分析
6. Thermal and Physical Characterization of PEG Phase Change Materials Enhanced by Carbon-Based Nanoparticles [O] . David Cabaleiro, Samah Hamze, Jacek Fal, 2020

机译：碳基纳米颗粒增强的PEG相变材料的热和物理表征
7. Thermal and Physical Characterization of PEG Phase Change Materials Enhanced by Carbon-Based Nanoparticles [O] . David Cabaleiro, Samah Hamze, Jacek Fal, 2020

机译：碳基纳米粒子增强PEG相变化的热和物理表征
8. Attachment methods for advanced spacecraft thermal control materials - An annotated bibliography, phase 1 Summary report supplement [R] . Abbott, H. M., Kordsmeier, N. H., Jr. 1967

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Thermal and characteristic analysis of shape-stabilization phase change materials by advanced vacuum impregnation method using carbon-based materials

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