DOI QR코드

DOI QR Code

건식 유리섬유 심재를 사용한 진공단열재의 단열특성에 관한 연구

A Study on the Thermal Insulation Performance of Vacuum Insulation Panel Using Dry Processing Glass Fiber Core

  • 투고 : 2019.03.29
  • 심사 : 2019.05.31
  • 발행 : 2019.06.30

초록

There is a big move to build zero-energy buildings in the form of passive houses that reduce energy waste worldwide. Korea has set a goal of reducing its greenhouse gas emissions by 37% by 2030 through the activation of green buildings, such as strengthening the energy levels of new buildings and improving the energy efficiency of existing buildings. The use of insulation with high insulation performance is one of the key technologies to realize this, and vacuum insulation is the next generation insulation that blocks the energy flow of the building. In this study, we measured the bonding structure of dry and wet processing glass fiber core materials and compared the insulation performance of vacuum insulation panel. In addition, the insulation performance of vacuum insulation panel was measured according to the thickness of the laminated core. It can be confirmed that the lamination structure of the core and the lamination thickness are important factors for the heat insulating performance of the vacuum insulating panel.

키워드

참고문헌

  1. Kim, Y. T. (2018). On Study of Effective Thermal Conductivity by Envelope Material Types of Vacuum Insulation Panel. Journal of the Architectural Institute of Korea, Vol.38 No.2, 288-289
  2. Song, S. Y., Park, S. h., Koo, B. K., Lim, J, H., & Ryu, S. R. (2013). Performance Evaluation of EIFS Using Vacuum Insulation Panels for Passive and Zero-Energy Apartment Buildings. Journal of the Architectural Institute of Korea, v.29 n.9, 219-228
  3. Kim, K. H, & Knowledge Center. (2013). High-efficiency energy green building new technology industry trend analysis(Green Remodeling/Insulator/Window/Envelope/Smart Grid/BEMS)
  4. Korea Small and Medium Business Administration. (2016). Technology Road Map for SME 2016-2018(Green Manufacturing, Eco Lighting.Construct 02), 211-225
  5. KS L 9016. (2010). Test Methods For Thermal Transmission Properties of Tthermal Iisulations
  6. KS A 0006. (2014). Standare Atmospheric Conditions For Testing
  7. KISTEP (2015). A Study on the Selection of Top Ten Future Technologies of KISTEP in 2015-Future promising technology to cope with social gap and inequality, 141-154