Earticle

Window System has a problem with insulation on building wall comparison with other portions. Recently, in all over the world, technologies and research for improvement of insulation performance with window system were actively studied. This study has been considered about components of window system and evaluated insulation performance of triple window system through the tests of U-Value of window system and simulated model. It was evaluated window system that widely used in domestic or overseas. Therm5.0 and Window6.0 were used for simulation available for heat analysis from stationary state of two-dimensional simulated model. As a result, the best components of each portion on window system were PVC frame, Plastic spacer and Low-e glass and the super insulation window system was triple glazing window system applied these components. The U-Value of this super insulation triple window system was 1.325 W/㎡K and it will be expected saving energy window system.

As the exterior of building has been considered one of th important parts, the use of glass that is suitable to express various appearances gets raised. However, windows have 6~7times lower insulating performance than insulated walls. Lately, highly efficient windows are required as the needs for reduction of energy consumption come to the force. Therefore, Nowadays more people use cooling systems in summer, more the use of Low-E glazing is increasing. Because it is good to block Solar Radiant Energy which can cause much of heat loss while cooling system is working. This study measures U-value of the double Low-E glazing window and commonly used single Low-E glazing window. And then the effect of each window on the efficiency rating has been analyzed applying to the certification system of the building energy efficiency rating which has implemented.

Low-e glazing is classified as soft low-e glazing and hard low-e glazing. Hard low-e glazing can be temperable and its handling is comfortable because its coating film is a oxide film generated at high temperatures. But there is a fatal weakness that its insulation performance and shielding performance are lower compared to soft low-e glazing by low electrical conductivity of coating film. Soft low-e glazing is excellent because its coating film consists of Ag that is excellent electrical conductivity and it has strength that can supply various product consumers want. But soft low-e glazing has weaknesses that temperable and handling are difficult because Ag is oxidized easily. Therefore this study analyzes thermal performance of glazing by changing filling gas according to applying low-e glazing through simulation to judge performance before making sample. After this process, a comparative experimental study was done through TVS by making temperable low-e glazing.

In the high oil prices age, intensification of energy efficiency promotion in the building sector is required. Windows are dominating large percentage whole building loads, and are regarding as the primary target of energy efficiency. The purpose of this study is to draw up a technical counterplan for the intensification of windows energy efficiency and spread promotion by quantitative thermal performance with KS test method for a comparison between the general Pair glass windows and the Low-e pair glass windows.

In the high oil price age, intensification of energy efficiency promotion in the building sector is required. Windows are dominating in large percent of whole building loads, and are regarding as the primary target of energy efficiency. In this study, in order to reduce heat loss of buildings, we investigate the thermal performance properties of Temperable Low-e glazing coated Ag membrane that has high electrical conductivity. The Temperable Low-e glazing windows has high insulation and shading properties, and it has strength that can supply various product which consumers want. In order to evaluate thermal performance of temperable windows, we install single low-e windows and double low-e windows in the experimental chamber and analysis the comparison heating energy consumption between single and double Low-e glazing windows. performance evaluation was conducted.

울릉도의 조면암질 응회암의 저온변질작용으로 할로이사이트가 생성되었다. 할로이사이트는 자연 상태에서 수화된 상태로 발견되었으며, 양파구조의 구상 또는 가장자리가 휘어진 판상 입자로 산출된다. 할로이사이트는 Si의 함량이 고령토 광물의 이상값보다 높아서 약간의 비정질이 혼재한 것으로 해석되었다. 또한 할로이사이트의 높은 Fe 함량은 판상 할로이사이트 생성의 원인이다. 조면암질 유리가 변질되면서 용탈된 원소들이 주로 화산유리의 입간 공극에 할로이사이트로 침전되었으며, 유리를 교대한 Si가 풍부한 반구상 비정질 집합체도 부분적으로 구상할로이사이트로 변질된 것으로 보인다. 할로이사이트는 조면암질 화산활동이 활발했던 울릉도에서 화산재의 주요 변질물 중의 하나이다.

Hydrated halloysite was formed by the low temperature alteration of trachytic tuff in onion-like spherical or curly platy forms. The Si content was higher than that of ideal kaolin minerals, indicating the possible presence of amorphous materials. The high Fe content is responsible for the platy morphology of halloysite. The leached ions precipitated as halloysite filling the interparticle pores, while trachytic glass was replaced by Si-rich amorphous materials in an hemispherical form, which was further evolved into spherical halloysite. Halloysite is one of the major alteration products of the volcanic ash in Ulleung Island underwent intense trachytic volcanism.