Xilinx Headquarters Building Renovation


Xilinx_Integral

Integral Group provided engineering, analysis, and daylighting services to determine a baseline and recommendations for a full redesign of the existing office building.

Working with Xilinx, Integral proposed a design to replace the glazing with high efficiency glass and install daylighting sensitive external shades. The concrete walls will be insulated with external rigid insulation to lock in thermal mass. Daylight monitors that punch through the second floor will provide daylight into the core of the open office plan. Operable windows in those monitors will allow for a nightly flush of the building to pre-cool the mass in the warm months.

The HVAC systems were designed to reduce or eliminate the reheat energy and increase HVAC system efficiency by dividing the building into five thermodynamic areas characterized by exposure – core, north, east, south, and west. Space conditioning requirements are expected to be very similar from space to space within a thermodynamic area; thus, all spaces within
one thermodynamic zone can be met with the same air conditions, and no additional conditioning is required at the zone level.

By comparison, a conventional building is typically cut into two zones, each of which contains multiple thermodynamic areas with different heat gain profiles.  Using this zoning method, one package unit must condition the supply air to meet the most demanding of its thermodynamic areas.  Reheat coils at the zone level provide additional conditioning to compensate for overcooling of rooms with lower cooling demand than the most demanding area.

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