A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Passive Solar Architecture in Cyprus
The principal element of this research was the design, construction and monitored inhabitation of an Experimental Solar House (ESH) at Lefkosia, taking into account the potential of the well established principles of Passive Solar Design when applied to the specific cultural, economic and climatic contexts of Cyprus. The research into thermal comfort concluded that, for Cyprus, an average 19.5-29°C is an acceptable temperature and an average of 20-75% is the acceptable range of relative humidity. It is concluded that it is impossible to accurately specify final temperatures and RH for the average person, because of the psychological, physiological and practical factors. It is concluded that the passive systems that are most suited for Cyprus are: Direct Gain, external insulation on walls (0.6W/m²K) and roof (0.3W/m²K), low emmisivity double-glazed argon-filled, interior thermal storage constructed from bricks and concrete, 5% north wall openings are sufficient for cross ventilation during summer nights, optimum of south wall openings 18%, permanent external shading devices, vegetation, use of natural ventilation and ceiling fans. Comparative annual energy use of the ESH versus traditional house, contemporary house and a low energy case was performed using computer simulation software Energy 10. The annual energy use of the ESH (121KWh/m²) is less than the contemporary house (368 kWh/m²) and the traditional (243 kWh/m²). Through monitoring the ESH the results show that all heating requirements are satisfied by solar energy, while natural ventilation or ceiling fans meet all the cooling needs, concluding that Passive Solar Design may be successfully applied in the design of modern buildings in Cyprus.
Passive Solar Architecture in Cyprus
The principal element of this research was the design, construction and monitored inhabitation of an Experimental Solar House (ESH) at Lefkosia, taking into account the potential of the well established principles of Passive Solar Design when applied to the specific cultural, economic and climatic contexts of Cyprus. The research into thermal comfort concluded that, for Cyprus, an average 19.5-29°C is an acceptable temperature and an average of 20-75% is the acceptable range of relative humidity. It is concluded that it is impossible to accurately specify final temperatures and RH for the average person, because of the psychological, physiological and practical factors. It is concluded that the passive systems that are most suited for Cyprus are: Direct Gain, external insulation on walls (0.6W/m²K) and roof (0.3W/m²K), low emmisivity double-glazed argon-filled, interior thermal storage constructed from bricks and concrete, 5% north wall openings are sufficient for cross ventilation during summer nights, optimum of south wall openings 18%, permanent external shading devices, vegetation, use of natural ventilation and ceiling fans. Comparative annual energy use of the ESH versus traditional house, contemporary house and a low energy case was performed using computer simulation software Energy 10. The annual energy use of the ESH (121KWh/m²) is less than the contemporary house (368 kWh/m²) and the traditional (243 kWh/m²). Through monitoring the ESH the results show that all heating requirements are satisfied by solar energy, while natural ventilation or ceiling fans meet all the cooling needs, concluding that Passive Solar Design may be successfully applied in the design of modern buildings in Cyprus.
Passive Solar Architecture in Cyprus
Petros Lapithis (author)
2003-06-15
Conference paper
Electronic Resource
English
DDC:
690
Application of ARCHIPAK for Development of Passive Solar Energy-Efficient Building in North Cyprus
| Online Contents | 2002
Application of ARCHIPAK for Development of Passive Solar Energy-Efficient Building in North Cyprus
| Taylor & Francis Verlag | 2002