Jacek Schnotale
Technical Transactions, Civil Engineering Issue 3-B (8) 2014, 2014, pp. 265-272
https://doi.org/10.4467/2353737XCT.14.246.3334In recent times, there has been a demand for developing new technologies for glazing with superior thermal performance, good optical quality and of the lowest possible weight. In the paper, CFD modeling and analytical calculation of the thermal performance of multi-layer glazing with ultrathin internal glass partitions is presented.
Jacek Schnotale
Technical Transactions, Civil Engineering Issue 3-B (8) 2014, 2014, pp. 443-453
https://doi.org/10.4467/2353737XCT.14.266.3354Rising costs of energy have caused the building envelope in the living sector to become tighter to improve energy efficiency. This raises questions about the quality of the indoor air as in traditional housing fresh air is supplied not only by ventilation system by also by infiltration through cracks in the building envelope. If a building is not properly ventilated, contaminants could accumulate within it and their levels could become hazardous to human comfort and health.
Measurement of thermal
transmittance of multi-layer glazing with ultrathin internal glass partitions
Jacek Schnotale
Technical Transactions, Civil Engineering Issue 3-B (8) 2014, 2014, pp. 273-279
https://doi.org/10.4467/2353737XCT.14.247.3335Currently, the most technologically advanced building walls have an overall heat transfer coefficient U at a level of 0.10 W/(m2K) which corresponds to the passive house standard. Less demanding requirements are set for building windows for which the thermal performance has not yet been significantly improved. Therefore, there is a demand for developing new technologies for glazing with superior thermal performance, good optical quality and of the lowest possible weight. In the paper, measurements of thermal performance of multi-layer glazing with ultrathin internal glass partitions are presented.