Concurso para torre de oficinas Acciona._01 ARI-DS-03 Hytasal. Sevilla.
Concurso para torre de oficinas Acciona._02 ARI-DS-03 Hytasal. Sevilla.
Concurso para torre de oficinas Acciona._11 ARI-DS-03 Hytasal. Sevilla.
Concurso para torre de oficinas Acciona._01 ARI-DS-03 Hytasal. Sevilla.
ACCIONA Tower. hytasal
Competition for Acciona office tower. ARI-DS-03 Hytasal. Seville
The convenience and timeliness of the execution of the sector is revealed by the requirement of compliance with the conditions and deadlines imposed by the General Plan.
The new plan recognizes opportunities for the implementation of new urban uses and functions, integrating it into the general planning area called Proyecto Singular del Sur. The industrial character of this sector together with its topography, cause a certain discontinuity in the urban fabric.
The objective of the planning is to free land through high-rise construction, so that the free spaces generated become elements that give a better quality of life to the urban fabric in its southern sector.
The orientation of the building is conditioned by the urban planning regulations. Therefore, the idea of the project arises in an effort to adapt the morphology to the solar movement, thus achieving differentiated orientations of its facades so that they can be treated in different ways:
South facade. This façade is one of the most problematic in our latitudes. The solution adopted consists of a double glass skin that allows us a large glazed surface and at the same time solves overheating thanks to the geometry of the outer skin and the characteristics of the different elements.
North side. Unlike the previous one, this façade does not enjoy very good views or direct sunlight, so it is designed by controlling the holes to avoid losses, thus responding to the design of the building to sustainable criteria.
sustainable description:
GENERAL SCHEME OF SUSTAINABLE OPERATION
SAVINGS AND ENERGY EFFICIENCY
ORIENTATION
O1. Adaptation of morphology to solar movement
O2. Elimination of direct solar incidence with inclined glasses.
O3. Reduction of sunlight through photovoltaic panels (parasols) and glass with solar filter.
O4. Control of the glazed surface and use of great thermal insulation in opaque areas to reduce thermal transmission.
LIGHTNING
I1. Morphology of the building with the largest office area in the south wing, with better comfort conditions.
I2. Introduction of natural light to the interior through the atriums placed on the façade.
I3. Optimization of capture of natural lighting in south orientation.
I4. Reflective elements en curtain wall and false ceiling on the south façade for greater penetration of natural light.
NATURAL VENTILATION
V1. Atrium ventilation - thermal gradient effect (hot air rising).
V2. Cooling of the atrium with vegetation (temperature absorption by transpiration).
V3. Day and night natural cross ventilation (between facades and atrium).
V4. Reduction of thermal transmission by ventilated façade (double skin).
USE OF RENEWABLE ENERGY
SOLAR THERMAL
T1. Sanitary hot water through solar collectors.
SOLAR PHOTOVOLTAIC
F1. Photovoltaic solar collection for injection into the electricity grid (direct sale of energy).
GEOTHERMAL
G1. Air burial renovation in summer
groundwater
Fr1. Thermal dissipation in air conditioning through groundwater wells
WATER SAVING AND EFFICIENCY
A1. Water recycling and recovery systems for irrigation
Data
-
Year: 2007
-
Promoter:trigger
-
Surface:20908 m2