EMPREGO DE PAINÉIS SOLARES COMO ELEMENTOS ARQUITETÔNICOS, UMA PROPOSTA PARA O CALÇADÃO DE LINS-SP

A sustentabilidade é um tema que vem crescendo a cada dia, e quando se trata dela, a energia solar é uma grande aliada. Na era moderna dos telefones celulares, é útil estar preparado com algo que possa ser carregado em qualquer lugar. Este projeto visa apresentar um conceito que une a energia solar, design arquitetônico moderno e a necessidade de se ter um local público apropriado para recarga dos dispositivos móveis de forma independente e sustentável.

Using Calibrated Simulation to Quantify The energy Savings From Residential Passive Solar Design in Canada

Energy savings from passive solar design applied to a typical Canadian house were quantified using calibrated whole building energy simulation. A detailed energy simulation model was created for a research house which represents a typical Canadian tract house with basic passive solar measures. The model was calibrated to measured furnace gas consumption data. Eight design scenarios were evaluated for eight climate locations. Design parameters included increased thermal mass, increased south window area, and high performance windows. In addition, an advanced house scenario was evaluated which featured optimized geometry, a further increase in south window area, high thermal mass, advanced glazing, and no north facing windows. For the typical house predicted solar heating fractions ranged from 20% to 34% with basic passive solar measures, and 35% to 52% for more aggressive passive solar measures. For the advanced house predicted solar fractions ranged from 40% to 69%.

Using Calibrated Simulation to Quantify The energy Savings From Residential Passive Solar Design in Canada

Energy savings from passive solar design applied to a typical Canadian house were quantified using calibrated whole building energy simulation. A detailed energy simulation model was created for a research house which represents a typical Canadian tract house with basic passive solar measures. The model was calibrated to measured furnace gas consumption data. Eight design scenarios were evaluated for eight climate locations. Design parameters included increased thermal mass, increased south window area, and high performance windows. In addition, an advanced house scenario was evaluated which featured optimized geometry, a further increase in south window area, high thermal mass, advanced glazing, and no north facing windows. For the typical house predicted solar heating fractions ranged from 20% to 34% with basic passive solar measures, and 35% to 52% for more aggressive passive solar measures. For the advanced house predicted solar fractions ranged from 40% to 69%.