Post by jakir213 on Feb 20, 2024 11:03:23 GMT 2
A result of the growth of the company, it is the last formal condition that is applied, which is resolved by dividing the building into different volumes (hexagons) and giving them the ability to function independently at an energy level. We especially highlight the strategies with which the building is explained at an energy level: 1 C. North-South: differentiation of facades The building is closed mainly to the north to avoid any type of loss energy, while it opens on the most radiated facades, taking advantage of solar energy as thermal gains in winter. 3retok 2 C. Heat island effect: microclimate Minimum paving of the green areas is proposed and the vegetation is studied implant, mainly native plants that maintain themselves without the need for a drip system, to work and create a microclimate that improves comfort on an urban scale and avoids the heat island effect, in addition to improving the biodiversity of the area and reducing the CO2.
Green roofs are understood as the extension of the garden that, in addition to contributing to creating a microclimate that avoids the heat island effect, improves thermal insulation by reducing interior energy demand and preventing overheating in summer. Green roofs are also capable of storing up to 75% of rainwater in summer and 40% in winter, which in addition to turning the roof into an element of inertia, could prevent flooding in our cities in the event of torrential rains, the effect heat island and improve biodiversity. 4retok 3c. Shading: deciduous UAE Phone Number trees and slats Excessive sunlight can be harmful at certain times, especially when there is a demand for cooling. For this reason, the implementation of deciduous vegetation is carefully studied as an essential element to control the solar radiation that reaches the building at different times of the year. In addition, the building is provided with louvers connected to the building's energy management system, to control radiation when necessary.
Retok 4c. Climatic galleries The most radiated facades, with a predominantly south orientation, are conceived as climatic cushions or solar galleries that take advantage of or reject solar energy, adapting to the climatic conditions, providing a passive complement to the building's active heating and cooling system. In summer, the slats are closed to prevent the sun from entering and the exterior carpentry folds until it disappears, leaving the interior carpentry shaded by the roof. In winter, the slats let in solar radiation that heats the closed carpentry closest to the outside, and the hot air that is concentrated between the two carpentry planes is used to cover the heating demand. 6retok 5c. Capture of solar thermal and photovoltaic energy In addition to passive systems for the use of solar energy such as climatic galleries and inertia walls, solar energy is used through the provision of thermal solar panels on the roof for the production of DHW and to contribute to covering the heating demand in winter, and photovoltaic panels connected to the grid to compensate for the electricity consumed by energy management equipment and systems.
Green roofs are understood as the extension of the garden that, in addition to contributing to creating a microclimate that avoids the heat island effect, improves thermal insulation by reducing interior energy demand and preventing overheating in summer. Green roofs are also capable of storing up to 75% of rainwater in summer and 40% in winter, which in addition to turning the roof into an element of inertia, could prevent flooding in our cities in the event of torrential rains, the effect heat island and improve biodiversity. 4retok 3c. Shading: deciduous UAE Phone Number trees and slats Excessive sunlight can be harmful at certain times, especially when there is a demand for cooling. For this reason, the implementation of deciduous vegetation is carefully studied as an essential element to control the solar radiation that reaches the building at different times of the year. In addition, the building is provided with louvers connected to the building's energy management system, to control radiation when necessary.
Retok 4c. Climatic galleries The most radiated facades, with a predominantly south orientation, are conceived as climatic cushions or solar galleries that take advantage of or reject solar energy, adapting to the climatic conditions, providing a passive complement to the building's active heating and cooling system. In summer, the slats are closed to prevent the sun from entering and the exterior carpentry folds until it disappears, leaving the interior carpentry shaded by the roof. In winter, the slats let in solar radiation that heats the closed carpentry closest to the outside, and the hot air that is concentrated between the two carpentry planes is used to cover the heating demand. 6retok 5c. Capture of solar thermal and photovoltaic energy In addition to passive systems for the use of solar energy such as climatic galleries and inertia walls, solar energy is used through the provision of thermal solar panels on the roof for the production of DHW and to contribute to covering the heating demand in winter, and photovoltaic panels connected to the grid to compensate for the electricity consumed by energy management equipment and systems.