Bibliographic citations
Menzala, L., (2019). Metodología BIM aplicado a diseño y construcción simultánea en proyecto de infraestructura deportiva [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/20586
Menzala, L., Metodología BIM aplicado a diseño y construcción simultánea en proyecto de infraestructura deportiva [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2019. http://hdl.handle.net/20.500.14076/20586
@misc{renati/1749858,
title = "Metodología BIM aplicado a diseño y construcción simultánea en proyecto de infraestructura deportiva",
author = "Menzala Villafranca, Leonardo Alfredo",
publisher = "Universidad Nacional de Ingeniería",
year = "2019"
}
The present work of professional sufficiency presents a report of what was the use of the BIM methodology for the project of the case of study "Expansion and Remodeling of the National Sports Village (Videna)", being a construction project of sports infrastructure with term delivery time very tight for the start of the Pan American and Parapan Americans Games Lima 2019. For the Videna project, the NEC3 (New Engineering Contract) contract modality was followed, which is a type of contract used in the United Kingdom for construction projects and is based on an IPD (Integrated Project Delivery) methodology, which promotes collaborative management of the design and construction basically based on the BIM methodology. With this contract, the benefit of all those involved was sought and the obstacles to participation were avoided by allowing direct coordination and minimizing risks and penalties. The Videna Expansion and Remodeling project had the purpose of creating a sports infrastructure in accordance with the highest international sporting standards. It consisted in the construction of new venues such as the Aquatic Center, Polideportivo 3 and Bowling; and the remodeling of the venue of Athletic Stadium (including a new warm-up athletic track) and the Velodrome, to which the number of grandstands was extended and the roofing with a metallic structure dome that should have not affected the track of the existing velodrome. The design stage began with the conceptualization of the project by the Architecture studio whose headquarters are in the United Kingdom but with a team of architects in Peru with the purpose of facilitating the exchange of information between the Structure and MEP Installations with the Architecture, having also the power to make decisions to optimize the design. Thus, the Cosapi Engineering Area office was adapted to implement the "Big Room", an environment where most of the designers and all specialties were involved. The Big Room of Cosapi was a propitious space to improve the collaboration between the specialists, to have a more effective coordination and to reduce the latency or the waiting time of response. These coordinations were even more effectively complemented with the Integrated Concurrent Engineering (ICE) sessions. As a product of the design under the BIM methodology, construction plans were obtained as deliverable with a minimum of deficiencies and more typical details. Given the project's characteristic of being a type of Fast Track construction, the construction stage began with a preliminary design advance. Part of the engineering team and BIM area was transferred to the construction site to support the planning, production and budget area. This support was based on the BIM methodology, which generated a workflow for the compatibilization, ICE sessions, updating of the BIM model and generation of Field Sketch with the participation of the engineering area and the construction staff. The income of the MEP subcontractors was contingent upon working under the same methodology followed in the structure stage of the project. The subcontractors of facilities participated in the optimization of the BIM models and the generation of Field Sketch as an indispensable requirement to start the work by sectors. The work of monitoring and control of the execution of work, installation and installation of facilities was based on the BIM methodology using th BIM models from technological tools such as IPADs, 360 ° cameras, Drones and 3D Scanner, which also facilitated the generation of As Build models and drawings for the final delivery to the client.
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