KPU Wilson School of Design

Client: Kwantlen Polytechnic University

Location: Richmond, BC

Architect: Public Architecture + Communication

The KPU Wilson School of Design features significant use of mass timber beams and columns in an open, interconnected floor space design.  GHL provided fire engineering services to permit the use of mass timber in this 5 storey assembly-use occupancy building.  In addition, we provided fire modelling services to address the utilization of the deep wood beams to serve as the draft stop required around the interconnected floor openings.

KPU Wilson School of Design / KPMB & Public Architects
KPU Wilson School of Design / KPMB & Public Architects
KPU Wilson School of Design / KPMB & Public Architects
KPU Wilson School of Design / KPMB & Public Architects

Orchard Commons

Client: University of British Columbia

Location: Vancouver, BC

Architect: Perkins+Will

 

 

UBC Bookstore

Client: University of British Columbia

Location: Vancouver, BC

Architect: Office of Mcfarlane Biggar architects + designers

 

 

Wesbrook Community Centre

Client: University of British Columbia

Location: Vancouver, BC

Architect: Francl Architecture

 

Earth Sciences Building

Client: University of British Columbia

Location: Vancouver, BC

Architect: Perkins+Will

The Tallwood House

Client: University of British Columbia

Location: Vancouver, BC

Architect: Acton Ostry Architect

The Tallwood House at the University of British Columbia is one of the tallest timber structure in the world.  At 18 storeys, the project aims to demonstrate the feasibility of using timber as the primary construction material in the residential highrise market.  The building is constructed with cross laminated timber (CLT) floors and glue-laminated columns as building structure, with two exit stair cores made of reinforced concrete. GHL provided fire engineering and alternative solutions for the Tallwood House to permit the use of timber, which is presently not permitted by the prescriptive solutions in the Building Code.  The engineering analysis was peer-reviewed by a panel of experts created by the provincial government, which lead to the approval by the authority having jurisdiction. In addition to the environmental benefit of wood, the project demonstrated that the building construction time can be significantly reduced due to the use of CLT panels, which were prefabricated off-site.