Eficiencia energetica en vivienda familiar subtropico humedo. Memoria fotos

May 27, 2017 | Autor: R. Gamboa-Rocha | Categoría: Indoor Air Quality, Sustainable Building Design, Energy Efficiency Buildings, Building Integrated Solar Energy Technologies, Energy and Environment, Energy Efficiency in buildings and cities, Integrated Building Water Management, Building Integrated Water Management, Energy efficiency, Energy Efficiency in Buildings, Bioremediation of wastewater, Daylight Assessment, Indoor environment - thermal comfort, indoor air quality health and wellbeing, Daylighting, Architectural Design, Indoor Environment and Energy, Outdoor Thermal Comfort, Energy Saving, Conserving Rainwater as Harvesting, Indoor environmental quality, Water efficient, Indoor environment, Thermal comfort, Energy saving systems, Energy savings, Natural ventilation, Rainwater Haverster, INDOOR AIR QUALITY, VENTILATION, ENERGY EFFICIENCY, Thermal Comfort and Energy Efficiency in Hot Humid Climates, rainwater Management, Cool Roofs, Energy Saving Strategies, Thermal comfort & Energy efficiency in hot climates, Natural ventilation as a passive cooling strategy, Domestic Rainwater Harvesting, Indoor Environment Quality (IEQ), Building Integrated Agriculture, Visual Comfort and Daylighting, Roofing in Hot and Dry Climate, Building Materials Roofing, Job Scheduling on Grid Computing and Cloud Computing, Rainwater Quality and Land Use Types, Wind-induced Natural Ventilation, Indoor Environment, Building-integrated Photovoltaic, Dispose of Waste, Fully Automatic Rainwater Harvesting System, Roof Isolation Systems, Energy Efficiency in buildings and cities, Integrated Building Water Management, Building Integrated Water Management, Energy efficiency, Energy Efficiency in Buildings, Bioremediation of wastewater, Daylight Assessment, Indoor environment - thermal comfort, indoor air quality health and wellbeing, Daylighting, Architectural Design, Indoor Environment and Energy, Outdoor Thermal Comfort, Energy Saving, Conserving Rainwater as Harvesting, Indoor environmental quality, Water efficient, Indoor environment, Thermal comfort, Energy saving systems, Energy savings, Natural ventilation, Rainwater Haverster, INDOOR AIR QUALITY, VENTILATION, ENERGY EFFICIENCY, Thermal Comfort and Energy Efficiency in Hot Humid Climates, rainwater Management, Cool Roofs, Energy Saving Strategies, Thermal comfort & Energy efficiency in hot climates, Natural ventilation as a passive cooling strategy, Domestic Rainwater Harvesting, Indoor Environment Quality (IEQ), Building Integrated Agriculture, Visual Comfort and Daylighting, Roofing in Hot and Dry Climate, Building Materials Roofing, Job Scheduling on Grid Computing and Cloud Computing, Rainwater Quality and Land Use Types, Wind-induced Natural Ventilation, Indoor Environment, Building-integrated Photovoltaic, Dispose of Waste, Fully Automatic Rainwater Harvesting System, Roof Isolation Systems

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Se presenta la memoria fotográfica de avances de una década (2006-2016) de ejecución puntual, del proyecto de ahorro y uso eficiente de energia para vivienda unifamiliar del subrópico Húmedo realizado por Visión EnerGtiK S de RL MI. Las 37 paginas del documento se refiere a la aplicación del proyecto en el caso de un inmueble unifamiliar, privado, que se ubica en el Fraccionamiento Framboyanes, Chetumal, Quintana Roo, MéxicoIng(c) Ricardo Xavier Gamboa Rocha, Director de Proyecto Inicio: 3 de septiembre del 2006. 12 acciones exitosamente concluídas en 10 años de ejecución del proyecto. Actividades contempladas, por realizar: Interconexión con red CFE, almacenamiento y uso agua lluvia, permacultura en techo.

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Eficiencia energetica en vivienda familiar subtropico humedo. Memoria fotos

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