D’Cosmos Residences
Location: Damansara Perdana
Year: 2024
Project Type: High-Rise Residential Development
Project Overview:
D’Cosmos Residences by EXSIM Group is a modern condominium located in the bustling enclave of Damansara Perdana. The development emphasizes verticality, natural ventilation, and contemporary façade expression, aligning with the brand’s eco-conscious architectural language.
D’Cosmos Residences by EXSIM Group is a modern condominium located in the bustling enclave of Damansara Perdana. The development emphasizes verticality, natural ventilation, and contemporary façade expression, aligning with the brand’s eco-conscious architectural language.
Use of PBM Ventilation Blocks:
PBM’s VB 402.125 is prominently featured across the podium façade and upper levels, serving both aesthetic and functional roles. The modular grid pattern adds a tactile texture to the structure while enabling passive airflow and light filtration. The cement-grey tone of the blocks blends seamlessly into the overall façade composition, working alongside vertical louvers and green wall elements to deliver a well-ventilated and visually dynamic frontage. The integration of VB 402.125 in large panelized sections also helps reduce solar heat gain while maintaining privacy for residents.
PBM’s VB 402.125 is prominently featured across the podium façade and upper levels, serving both aesthetic and functional roles. The modular grid pattern adds a tactile texture to the structure while enabling passive airflow and light filtration. The cement-grey tone of the blocks blends seamlessly into the overall façade composition, working alongside vertical louvers and green wall elements to deliver a well-ventilated and visually dynamic frontage. The integration of VB 402.125 in large panelized sections also helps reduce solar heat gain while maintaining privacy for residents.
PBM products featured:
'PBM’s VB 402.125 block enabled the creation of a breathable and elegant screen wall system, softening the building’s volume while enhancing passive design performance.'
