• Title/Summary/Keyword: Thermal insulation performance

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Experiment and Analysis of Load-Bearing Insulations for Slabs Thermal Breaks composed by H-Shaped Stainless Steel and UHPC Blocks (H강재와 UHPC압축블록을 적용한 슬래브용 열교차단 단열구조체 실험 및 해석연구)

  • Kim, Jae Young;Lee, Ga Yoon;Yoo, Young Jong;An, Sang Hee;Lee, Kihak
    • Journal of Korean Association for Spatial Structures
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    • v.23 no.3
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    • pp.35-43
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    • 2023
  • This study aims to evaluate the structural safety of a structural thermal barrier, installed inside the structure of a building and performed the role of a load-bearing element and an insulation simultaneously, contributing to the realization of net-zero buildings. To ensure the reliability of the analysis model, the analysis results derived from LS-DYNA were compared with the experimental results. Based on the results shown through the flexural experiment, the reliability of the thermal cross-section insulation structure model for slabs was validated. In addition, the effect of the UHPC block on the load support performance and its contribution to vertical deflection was verified.

Thermal Performance Evaluation Monitoring Study of Transparent Insulation Wall System (투명단열 축열벽 시스템의 열성능 평가 실험 연구)

  • Kim, B.S.;Yoon, J.H.;Yoon, Y.J.;Baek, N.C.;Lee, J.S.
    • Journal of the Korean Solar Energy Society
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    • v.23 no.1
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    • pp.1-8
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    • 2003
  • Various efforts to combine new high-tech materials with solar system have been progressed nowadays in order to improve the performance of the existing passive solar system. TIM(Transparent Insulation Material) replacing the conventional outer building envelope glazing as well as the wall is good example for this trend. TI integrated wall is a thermal mass wall with a special shaped TIM instead of using typical envelope materials The tested TIM type is a small(diameter 4mm and thickness 50mm) capillary tube of Okalux model and cement brick(density 1500kg/m3). The purpose of this study was to analyze the thermal performance through the actual measurements performed in a test cell. This study was carried out to justify the following issues. 1) the impact of Tl-wall over the temperature variations 2) the impact of mass wall surface absorptance over the transient thermal behavior and 3) the impact of thermal mass wall thickness over the temperature variations. Finally, as results indicated that the peak time of room temperature was shifted about one hour early when absorptance of thermal mass wall changed from 60% to 95% for the 190mm thickness thermal mass wall test case. the temperature difference of both surfaces of thermal mass wall surface showed about $23^{\circ}C$ during a day of March for the 380mm thickness thermal mass wall case. However, the thermal mass wall was over-heated by outside temperature and solar radiation in a day of May the temperature difference of both surfaces of thermal mass wall surface was indicated $10^{\circ}C$ and inside temperature was observed more than average 22C.

Epoxy-Based Siloxane/Silica Composites for Electronic Packaging by Composition and Molecular Structure of Siloxane, and Analysis of Changes in Properties (조성 및 실록산 분자 구조에 따른 전자 패키징용 에폭시 기반 실록산/실리카 복합체의 물성 변화 분석)

  • Junho Jang;Dong Jun Kang;Hyeon-Gyun Im
    • Journal of Powder Materials
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    • v.30 no.4
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    • pp.346-355
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    • 2023
  • Epoxy-based composites find extensive application in electronic packaging due to their excellent processability and insulation properties. However, conventional epoxy-based polymers exhibit limitations in terms of thermal properties and insulation performance. In this study, we develop epoxy-based siloxane/silica composites that enhance the thermal, mechanical, and insulating properties of epoxy resins. This is achieved by employing a sol-gel-synthesized siloxane hybrid and spherical fused silica particles. Herein, we fabricate two types of epoxy-based siloxane/silica composites with different siloxane molecular structures (branched and linear siloxane networks) and investigate the changes in their properties for different compositions (with or without silica particles) and siloxane structures. The presence of a branched siloxane structure results in hardness and low insulating properties, while a linear siloxane structure yields softness and highly insulating properties. Both types of epoxy-based siloxane/silica composites exhibit high thermal stability and low thermal expansion. These properties are considerably improved by incorporating silica particles. We expect that our developed epoxy-based composites to hold significant potential as advanced electronic packaging materials, offering high-performance and robustness.

Size Effect of Hollow Silica Nanoparticles as Paint Additives for Thermal Insulation (단열 페인트 첨가제로써 중공형 실리카 나노입자의 크기에 따른 효과)

  • Kim, Jisue;Kim, Younghun
    • Clean Technology
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    • v.28 no.1
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    • pp.18-23
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    • 2022
  • Using air as an insulator due to its low heat transfer coefficient has been studied and has been widely commercialized to save energy in the field of thermal insulation technology. In this study, we analyzed the heat insulating effect of hollow silica nanoparticles mixed in non-uniform size, and the maximum heat insulating efficiency of these particles given the limited number of particles that can be mixed with a medium such as paint. The hollow silica nanoparticles were synthesized via a sol-gel process using a polystyrene template in order to produce an air layer inside of the particles. After synthesis, the particles were analyzed for their insulation effect according to the size of the air layer by adding 5 wt % of the particles to paint and investigating the thermal insulation performance by a heat transfer experiment. When mixing the particles with white paint, the insulation efficiency was 15% or higher. Furthermore, the large particles, which had a large internal air layer, showed a 5% higher insulation performance than the small particles. By observing the difference in the insulation effect according to the internal air layer size of hollow silica nanoparticles, this research suggests that when using hollow particles as a paint additive, the particle size needs to be considered in order to maximize the air layer in the paint.

Analysis of Thermal Insulation Performance Based on Material Combinations for Carbon Reduction Insulating Concrete (탄소저감을 위한 단열콘크리트 재료 조합에 따른 단열성능 분석)

  • Himan Lee;Jaekyung Lee
    • Land and Housing Review
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    • v.15 no.3
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    • pp.189-198
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    • 2024
  • This study analyzes the thermal performance of insulating concrete based on material combinations aimed at carbon reduction. The study compares the thermal and structural properties of insulating concrete enhanced with perlite and EPS (Expanded Polystyrene) beads to conventional concrete, with a focus on the impact of insulation properties on thermal conductivity. The results indicate that the content of EPS beads is critical to the insulating performance, and increased moisture absorption significantly reduces the energy efficiency of the insulating concrete. These findings provide valuable insights for the design and application of insulating concrete to enhance energy efficiency and reduce carbon emissions. This study offers guidance for further developing insulating concrete as a carbon-reducing building material.

Characteristic of Insulation with Moisture Content Light-weight Inorganic Foam Ceramic Board (경량무기발포 세라믹보드 및 무기단열재의 함수율에 따른 단열특성)

  • Shin, Hyeon-Uk;Song, Hun;Chu, Yong-Sik;Lee, Jong-Kyu
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2013.11a
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    • pp.198-199
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    • 2013
  • To prevent energy waste in buildings used heat insulator. Heat insulator materials can be classified inorganic and organic. The inorganic material has lower water resistance. The inorganic material is heavy and worse thermal performance than organic materials. Technologies on energy saving and materials used in curtain walls have progressed with increase of high-rise and large buildings. However, there is little study to explain water resistance performance of the curtain walls. This study focused on evaluation of insulation of inorganic materials and performance evaluation by thermal conductivity.

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Prototype Development for BIM based Thermal Insulation and Condensation Performance Evaluation of Apartment Housings

  • Oh, Hyangok;Cho, Daegu;Jang, Hyang-In;Hong, Soungwook;Lee, Myung Sik
    • Architectural research
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    • v.17 no.2
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    • pp.75-81
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    • 2015
  • Insulation and condensation performance evaluation (I&CPE) is an important energy analysis. While considerable amount of data are already represented in a Building Information Model (BIM), the lack of interoperability between BIM modeling and I&CPE programs prevents the simulation process from being efficient and accurate. This study proposes a prototype of a BIM-based I&CPE simulation program, in order to enhance the interoperability between BIM modeling and I&CPE programs. This study discusses the information flow process, defines the required information and its level of detail, develops standardized libraries, and finally proposes a prototype that consists of a data extraction module, conversion module, and performance module. The assurance of interoperability between systems might greatly benefit architects and energy professionals.

Performance Experiment of H-120 Class Fire Damper for Offshore (해양플랜트용 H-120 Class 파이어 댐퍼의 성능 실험)

  • Jang, Sung Cheol;Hur, Nam-Soo;Kim, In-Whan
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.13 no.2
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    • pp.131-136
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    • 2014
  • In this paper, a fire resistance test was carried out in accordance with the change of the insulation conditions on the exposed side and unexposed side of a coaming to obtain the optimal insulation conditions for class H-120 insulation in connection with specimen1 of the preceding paper for an evaluation of the fireproof performance of fire dampers according to hydrocarbon fire conditions. In the test results, specimen2(88 mm, $171^{\circ}C$) met the class H-120 insulation conditions, but specimen3(76mm, $181^{\circ}C$) exceeded the thermal insulation acceptance criteria at 110 minutes. Therefore, specimen2(88 mm) represents the optimal insulation conditions as a possible lightweight materialas compared to specimen1. From a comparison of the test results, we concluded that the temperature increase of the coaming insulation surface was influenced by conductive heat from the bulkhead and that the coaming surface was influenced by radiant heat from the blade and coaming.

Effect of Concrete Containing the Biochar on Properties and Thermal Insulation Performance (바이오차를 혼입한 콘크리트의 물성 특성과 단열성능에 미치는 영향)

  • Kyoung-Chul, Kim;Kyung-Taek, Koh;Min-Su, Son;Gum-Sung, Ryu;Jae-Yoon, Kang
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.10 no.4
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    • pp.428-434
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    • 2022
  • This study intends to develop an eco-friendly concrete panel mixed with biochars. Experiments about mechanical and thermal properties were conducted on porous biochar concrete, which has insulation and carbon-capture performance. The concrete has a mixing ratio of 0, 5, 10, and 15 % for biochar and a water-binder ratio of 0.35. The unit weight, porosity, and permeability were measured to evaluate the mechanical characteristics. From the results, as the biochar mixing rate increased, the porosity and the permeability increased, but the unit weight decreased. Even though a decreased trend was observed in the compressive strength results, they satisfied the design standard. Since the thermal conductivity was decreased during the increase of contents, biochar could be considered an excellent material for insulation performance. In addition, regression analyses were conducted regarding the relationship of unit weight with porosity, compressive strength with thermal conductivity, and porous with thermal conductivity. From the regression, significant variables for expanding the scope of the application of biochar were presented.

Insulation Details and Energy Performance of Post-Beam Timber House for Insulation Standards (단열 기준에 따른 기둥-보 목조주택의 단열 상세 및 에너지 성능)

  • Kim, Sejong;Park, Joo-Saeng
    • Journal of the Korean Wood Science and Technology
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    • v.43 no.6
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    • pp.876-883
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    • 2015
  • Han-green project, which pursues Korean style post and beam timber house with traditional construction technique of Han-ok, has been carried out in KFRI (Korea Forest Research Institute) since 2006. Recently, the improvement of its building energy performance was studied with energy-saving elements. This study was conducted to provide the insulation details of building envelopes in a post-beam timber house for recent enhanced insulation standards and following effect on building energy performance. The level of thermal transmittance (U-value) values of building envelopes was composed of two stages: present Korean insulation standards and passive house. To evaluate building energy performance, the building airtightness values of two stages was ACH50 = $3.0h^{-1}$ for common domestic timber house constructed recently, and ACH50 = $0.6h^{-1}$ for passive house. Consequently, four cases of the building energy performance according to the combination of U-value with airtightness were evaluated. The test house for evaluation was located in Seoul and its energy performance was evaluated with CE3 commercial building energy simulation program. The result showed that enhanced insulation from level I to II reduced $14kWh/(m^2{\cdot}a)$ of annual heating energy demand regardless of airtightness.