Boushehr Customs Building and Control Tower
General Technical Specification of the Project:
A) Marine Telecommunication Control Tower building with 11 floors, concrete carcassing on an expanded foundation and about 7500 m2 substructure Marine Telecommunication Control Tower building's powerhouse with about 700 m2 area includes electrical and mechanical equipments B) Custom building with 3 floors, concrete caracassing on strip foundation and 2600 m2 substructure Custom building's powerhouse with about 80 m2 area includes electrical and mechanical equipments C) Landscaping of the project Buildings electrical and mechanical installations and other complementary operations
Marine Telecommunication Control Tower Building:
This building is located on the Port's operational outdoor in order to accumulate the dispersing buildings and make a suitable area for warehousing.
It is located near Boushehr city. The project's substructure is around 7500 m2 in 11 floors. The first 9 floors are administrative rooms and floor 10 and 11 are designed for telecommunication control tower. Due to the local climate conditions light double water and fire proof walls insulation are used.
In the tower building, an amphitheater saloon with 265 chairs, internal wooden decoration and suitable lightning is designed for meetings.
The building's façade is made of aluminum composite panel. The telecommunication control tower with 2 floors and 47.5 m height is located higher than any other available property in Boushehr. The first floor is assigned for radio department and the second floor is for control section.
The mechanical room of the control tower building with around 700 m2 substructure has concrete frame and composite aluminum panel view is located next to the administrative building.
This building with about 3000 m2 area is located next to the telecommunication control tower building. It is designed in 3 floors. Ultraviolet rays are being prevented by aluminum double window system, a securit reflexive external glass with hard coating and internal septum with low-E. Suitable materials such as cavity walls and insulating heating system for energy optimization are considered. A structural system with flexural concrete is built on the strip foundation.