Published Date
Received 30 April 2014, Revised 14 June 2014, Accepted 24 July 2014, Available online 2 August 2014.
Author
PabloLa RocheUmbertoBerardi
https://doi.org/10.1016/j.enbuild.2014.07.055
Abstract
Green roofs have been proposed for energy saving purposes in many countries with different climatic conditions. However, their cooling and heating potential strongly depends on the climate and building characteristics. In particular, the increase of the thermal capacity of green roofs compared to traditional roofs, if not controlled with insulation, may lead to higher cooling and heating loads. This paper discusses the energy saving potential of green roofs adopting a variable insulation strategy. A system consisting of a plenum located between a green roof and the room underneath and a sensor-operated fan that couples (or decouples) the green roof mass with the indoor environment was developed. The fan is activated and stopped using temperature based rules; the plenum is ventilated only when the fan works, creating a variable insulation system. Four cells with an insulated traditional roof, a non-insulated green roof, an insulated green roof, and a green roof with the variable insulation system have been tested in a hot and dry climate with mild winters over several years. This paper compares and discusses different plenum control algorithms. Results are particularly promising because the variable insulating system proved to adjust the thermal capacity of the roof effectively. In summer, the non-insulated green roof and the green roof with variable insulation system achieved the lowest indoor temperature; in winter, the insulated traditional roof and the variable insulation green roof system achieved the highest indoor temperatures. Measurements are hence compared with simulations. Finally, the energy saving potential of the new green roof system is evaluated.
For further details log on website :
http://www.sciencedirect.com/science/article/pii/S0378778814005957
Received 30 April 2014, Revised 14 June 2014, Accepted 24 July 2014, Available online 2 August 2014.
Author
PabloLa RocheUmbertoBerardi
- a
- California State Polytechnic University Pomona, Pomona, CA, USA
- b
- Ryerson University, Toronto, ON, Canada
https://doi.org/10.1016/j.enbuild.2014.07.055
Highlights
- •
- Cooling and heating potential of green roofs strongly depends on the climate and building characteristics.
- •
- This paper presents and investigates a green roof adopting a variable insulation strategy thanks to a sensor-operated fan.
- •
- Test cell results have been monitored in a hot and dry climate with mild winters over several years.
- •
- Measurements are also compared with simulations for different weather conditions.
- •
- Results show particularly promising for energy saving and comfort improvements.
Green roofs have been proposed for energy saving purposes in many countries with different climatic conditions. However, their cooling and heating potential strongly depends on the climate and building characteristics. In particular, the increase of the thermal capacity of green roofs compared to traditional roofs, if not controlled with insulation, may lead to higher cooling and heating loads. This paper discusses the energy saving potential of green roofs adopting a variable insulation strategy. A system consisting of a plenum located between a green roof and the room underneath and a sensor-operated fan that couples (or decouples) the green roof mass with the indoor environment was developed. The fan is activated and stopped using temperature based rules; the plenum is ventilated only when the fan works, creating a variable insulation system. Four cells with an insulated traditional roof, a non-insulated green roof, an insulated green roof, and a green roof with the variable insulation system have been tested in a hot and dry climate with mild winters over several years. This paper compares and discusses different plenum control algorithms. Results are particularly promising because the variable insulating system proved to adjust the thermal capacity of the roof effectively. In summer, the non-insulated green roof and the green roof with variable insulation system achieved the lowest indoor temperature; in winter, the insulated traditional roof and the variable insulation green roof system achieved the highest indoor temperatures. Measurements are hence compared with simulations. Finally, the energy saving potential of the new green roof system is evaluated.
For further details log on website :
http://www.sciencedirect.com/science/article/pii/S0378778814005957
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