Project -The Brij-Serendipity Arts Museum

The Brij New Delhi
The Brij New Delhi

The Brij- Serendipity Arts Museum, New Delhi

6 Blocks of G+6 consists of Entry Vessel, Academy, Gallery, Library, Museum, Theatre, Experimental Theatre, Kids’ play area, step well. Proposed with complex curved building forms forming interesting architectural patterns. Each buildings are distinctly different in architectural, details and materials.

BES team has deeply involved in resolving the complex geometry and achieving a highly practical building design solutions. Stone cladding facade systems were designed by BES to suit the complex curved surface.

The Brij-Serendipity Arts Museum facades are unique architectural designs with each building blocks has different functions and aesthetics. Building envelope surface has been optimised by BES, resulted double curved surfaces were simplified with planer surfaces as buildable geometry. BES team has used advanced geometry techniques using Rhino, Grasshopper and Scripting for surface optimisation. BES team is able to effectively colloborate with Crab Studio as both team has used same Rhino 3d model

Project Team

Client : Serendipity Arts Foundation

Architect : Crab Studio & CP Kukreja Architects

Project Status : Construction Stage

Scope : Building Envelope designs & Advanced Geometry

What we did

Building Envelope, Advanced Geometry, Detailed Design, Facade Engg, 3D Designs

BES Value Add:

    • Architectural massing geometry has been optimized and resolved by BES, leads to a buildable façade geometry.
    • BES has refined the façade geometry and shared to the architect and the whole team has followed the geometry refined by BES
    • Good collaboration with international architects and multidiscipline team
    • Able to resolve highly complex using Rhino, Grasshopper with Coding and scripting
    • BES advanced geometry team, driving force of creating optimized and highly practical 3d curved form
    • Well Resolved 3d Design and details, engineered and fully coordinated with structure