Anglicare has embarked on an ambitious redevelopment of Kilvinton Village in Castle Hill, transforming the aged care precinct to better serve the community’s needs. Stage 1 of this major project involves demolishing existing buildings and constructing three new apartment buildings that will comprise 53 retirement living units, supported by a common basement with 64 parking spaces.
The redevelopment represents a significant investment in modern aged care infrastructure, requiring careful integration of civil engineering with architectural and landscape designs to deliver an exceptional outcome for residents.
ptc. was engaged by Anglicare to provide civil engineering services during the design finalisation phase, which required modifications to the original Conditions of Consent, and through to tender documentation. Our team tackled complex technical challenges, including resolving intricate overland flow issues and securing TfNSW approvals for the diversion of a trunk drainage system that drained Castle Hill Road. This technical expertise ensured seamless integration between civil design and the architectural and landscape layouts.
Our services extended beyond design, with ptc. being engaged by the Stage 1 builder to provide construction documentation and construction services, including facilitating the Works Authorisation Deed (WAD) process with TfNSW. Looking ahead, we continue our partnership with Anglicare for Stages 2 to 5 of the redevelopment, which includes design finalisation requiring modifications to original conditions and a new Development Application for approximately 25 additional dwellings.
Client: Anglicare
Location: Castle Hill, NSW
Services provided:
- Stormwater assessment and modelling (water quantity and quality)
- Sediment and erosion control plan
- Road design
- 3D modelling
- Swept path analysis
- Car park assessment
- Overland flow assessment (flood lot controls)
- Tender documentation
- Construction documentation and construction services
- Works Authorisation Deed (WAD) facilitation with TfNSW