Passive House Institute Darmstadt certifies LAMILUX CI System Continuous Rooflight Benergysave

Continuous rooflights can now provide daylight in accordance with Passive House Standards: The new global innovation from LAMILUX, the LAMILUX CI System Continuous Rooflight Benergysave has been certified by the Passive House Institute Darmstadt. After the LAMILUX CI System Glass Element FEenergysave & FEenergysave+ and the LAMILUX CI System Glass Architecture PR 60energysave, the LAMILUX CI System Continuous Rooflight Benergysave is the fourth daylight element from the portfolio of the Upper Franconian skylight and building control system specialist - and the first Passive House certified continuous rooflight ever. These products have all been certified as "phA or phA+ – Advanced Components", which is the highest possible Passive House efficiency class.

The LAMILUX CI System Continuous Rooflight Benergysave, LAMILUX CI System Glass Architecture PR 60energysave and LAMILUX CI System Glass Ele-ment FEenergysave are the further developments of three tried and tested daylight elements and have all been awarded Passive House certification for cool temperate climate zones. At present, the new LAMILUX continuous rooflight is the only one of its kind to meet the high requirements of the Passive House Institute.

Continuous Rooflight Benergysave: Outstanding insulation and airtightness

The LAMILUX CI System Continuous Rooflight Benergysave features special polycarbonate glazing with an added layer for increased airtightness and a unique base profile. The U value, or heat transmittance coefficient, of the thick glazing package (Ug) is 0.80 W/(m²K). Its excellent energy values make this daylight element a market leader.

Due to its outstanding properties as a "phA+ – Advanced Component", the LAMILUX CI System Continuous Rooflight Benergysave is particularly suited for use in heated buildings which require a melt-out area, such as DIY stores, sports halls, places of assembly or production halls.

Maximum prevention of condensation and mould formation

Testers also attach great importance to other aspects, however, when it comes to assuring compliance with passive house requirements. Hygiene plays a significant role: In order to prevent condensation and mould for-mation, the 12.6°C isothermal line must consistently lie within structures at an outside temperature of -5°C, an indoor temperature of +20°C and a rel-ative air humidity of 50 per cent. This is the case with all certified LAMILUX daylight systems.

Furthermore, the Passive House efficiency classes also take into account heat loss and solar energy gain. Minimum heat loss is therefore achieved when the frame systems have excellent U values and low glass edge Ψ-values. In addition, the narrow frame profiles maximise solar gain. These two extra efficiency criteria are expressed by the value ψopak. The lower this value is, the higher the efficiency class. The LAMILUX daylight ele-ments are classed at least as "phA – Advanced Components".

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