Roof Thermal Transfer Value

Shading insulation thermal mass evapotranspiration et q et combined effect.

Roof thermal transfer value.

Not a conventional insulation material. Roof thermal transfer value rttv model is prescribed for air conditioned non residential buildings as guidelines for thermal performance of roofs in numerous southeast asia countries. In this paper a new rttv model is proposed with new formulation for modelling the equivalent thermal resistance increment due to the solar reflectance effect on opaque roofs using the previously developed crht cool roof heat transfer model. In summer the solar radiation affects the outside surface of wall and roof.

Insulation is only one component of your roofing system but it performs multiple functions that you can optimize for your building. Modulate heat flux through the roof by. To differentiate between the walls and the roof the term roof thermal transfer value rttv is used instead. The new formulation is incorporated into the u value estimation of the heat conduction gain component.

In singapore an rttv roof thermal transfer value model is prescribed for air conditioned non residential buildings as guidelines for thermal performance of roofs. Overall thermal transfer value ottv is meant to measure the envelope thermal performance of air conditioning buildings that is followed an energy efficiency standard. Results of reviewed studies show that thermal behavior of green roof is subject of different conditions like type and thickness of growing medium leaf area index and density of vegetation ceiling temperature transfer coefficient r value of roof and climate of studied region. Thermal benefits of green roofs.

U value thermal conductance is a measure of a material or assembly to transfer heat. Q winter u a ti to ti inside air temperature. To outside air temperature. R value thermal resistance is a measure of the ability to resist heat transfer.

Plants and substrate require energy and mass balance. The rttv model is very similar to the ottv model except that due to different orientation the model coefficients are different. In a typical meteorology year the modeling results show that the shingle and thermoplastic polyolefin roof transfer 78 9 294 1 kwh m yr and 8 5 128 2 kwh m yr of heat into the. In winter the heat loss is simple transmission based on the inside and outside temperature and u value of composite structure.

Yik and wan 2005 stated that the ottv is an appropriate building envelope energy performance index for use in regulatory control.