Structural & Civil Engineering for
Renewable Infrastructure
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Our Purpose
Engineering the Backbone of Renewable Energy Systems
“Strong foundations, resilient structures, and reliable performance for every renewable system”
Our Structural & Civil Engineering service focuses on the physical integrity, safety, and longevity of renewable energy installations. We design the underlying frameworks that support solar, battery, and hybrid energy systems — ensuring structural resilience, constructability, and compliance with Australian and international engineering standards.
Our Expertise
01/Structural Engineering for Renewable Assets
Racking & Tracker Design Validation: Structural analysis and optimisation for single-axis and dual-axis tracker systems, incorporating site-specific wind and seismic load cases.
Advanced Foundation Design: Geotechnical evaluation and foundation modelling for diverse soil conditions using driven pile, helical screw, ballast, or hybrid systems.
Solar Carpark & Canopy Structures: Structural and drainage design for integrated carpark PV systems, including waterproofing and EV-charging load considerations.
Battery Enclosures & Platforms: Structural design of slab and containment systems for large-scale battery storage projects per AS/NZS 3600 and IEC 62933.
02/Civil & Site Infrastructure Design
Site Grading & Drainage Design: Civil layout design for proper runoff management and flood protection in solar farms and energy precincts.
Access Road & Cable Trench Design: Durable, low-maintenance road and trench layouts for efficient construction and long-term maintenance
Stormwater & Erosion Control: Integration of WSUD principles and soil-stabilisation measures for environmentally responsible developments.
Construction Coordination: Preparation of civil tender documentation, material specifications, and constructability assessments for EPC teams.
03/ Structural Certification & Compliance
Design Certification & RPEQ/CPEng Review: Independent engineering certification for compliance with AS/NZS 1170 series, AS/NZS 4100, and AS/NZS 4600.
Wind & Seismic Assessment: Site-specific modelling aligned with AS/NZS 1170.2 and AS/NZS 1170.4 to address dynamic forces and safety margins.
Fabrication Detailing & QA: Connection detailing, weld design, and shop drawing review using Tekla and SolidWorks for quality-controlled construction.
Lifecycle Durability Modelling: Material selection and corrosion protection design for extended system life in coastal and industrial environments.
Our Purpose.
Why Partner with Us
Our structural and civil engineers form the bridge between concept and construction — ensuring every renewable energy system is physically buildable, compliant, and designed for durability. We focus on precision, constructability, and sustainability, delivering engineered systems that perform reliably for decades.
Contact
Energy & Renewable Division to discuss your renewable infrastructure project and learn how our structural and civil engineering team can strengthen your project’s foundation for success.
