Turnkey project for a last-mile distribution center
The project developed in the Zárate district, Buenos Aires province, integrates photovoltaic solar panels on the roof, cross-ventilation systems, and a polished concrete slab with controlled thermal inertia. Loading docks were optimized to reduce maneuvering times by 18% compared to traditional layouts. CFD simulation validated the air flow distribution, achieving a 35% reduction in HVAC energy consumption.
Read articleMaster plan for an 8-hectare corporate campus
The master plan for the technology park in the city of Córdoba includes 6 modular buildings connected by a central plaza with native vegetation. Each module allows internal subdivisions without affecting the load-bearing structure, facilitating adaptation for different companies. Covered pedestrian bridges with Corten steel latticework were designed to provide sun protection and create microclimates. The post-tensioned slab system allowed for 18-meter clear spans without columns in laboratory areas.
Read articleIntegration of AS/RS systems and synchronized dock design
The 25,000 m² logistics center in the Pilar industrial corridor incorporates an automated storage and retrieval system (AS/RS) with 12 aisles of 24-meter-high racking. The herringbone dock layout allows simultaneous loading and unloading of 18 trucks. Steel fiber-reinforced concrete was used for the floor slabs, eliminating expansion joints and reducing maintenance. The design prioritized the separation of pedestrian and vehicular flows using elevated steel and polycarbonate walkways.
Read articleDirect answers on timelines, regulations, and design processes for warehouses, logistics centers, and technology parks.
Depending on complexity and energy efficiency requirements, the complete process —from preliminary design to executive documentation— typically takes between 8 and 16 weeks. This includes soil studies, flow simulations, and coordination with engineering firms.
Each municipality has its own building code and land use regulations. Generally, environmental impact studies, a waste management plan, and compliance with Law 19,587 on Hygiene and Safety are required. We manage regulatory feasibility before starting the design.
Yes. We perform CFD models to validate natural ventilation and logistics layout simulations using discrete event software. This allows adjusting the arrangement of docks, aisles, and storage areas before construction, reducing future operating costs.
Yes, that is our main focus. We participate from the definition of the use matrix, network infrastructure, and building modulation. The goal is to ensure scalability, connectivity, and spatial efficiency without compromising the corporate identity of the complex.