Our Projects
NSW Education Sector- Civil Design & Engineering Services
VGEE provides civil engineering design and approval support for small to medium-scale infrastructure works across educational facilities throughout New South Wales. Our scope includes the development of civil designs, preparation of technical documentation, and coordination of approval processes in line with applicable standards and authority requirements.
The works typically involve site upgrades, access improvements, drainage solutions, and supporting infrastructure within active school environments. All designs are developed with consideration to safety, constructability, and minimal disruption to ongoing operations.
VGEE works closely with stakeholders, consultants, and contractors to ensure that all civil works are engineered, documented, and approved in a structured and compliant manner, enabling efficient project delivery across multiple educational site
Civil, Electrical & Project Coordination in Recycling Facility at NSW
VGEE provided multidisciplinary engineering and project delivery support for a large-scale resource recovery and waste processing facility.
The project involved the development and upgrade of industrial infrastructure to support high-throughput material handling operations within a heavy-duty operational environment.
VGEE supported the project across civil, electrical, and construction coordination disciplines.
- The scope included engineering design development, technical documentation, procurement support, and site-based coordination during construction and commissioning phases.
Civil engineering services included design and documentation for heavy-duty hardstand areas, access roads, internal traffic circulation, drainage systems, and bulk earthworks. Particular attention was given to pavement design capable of supporting frequent heavy vehicle movements and high axle loads associated with waste transfer and processing operations.
Stormwater management systems were designed to address runoff control, sediment management, and environmental compliance within an industrial setting. Site grading and earthworks strategies were developed to ensure efficient surface drainage and operational functionality.
VGEE provided design support for reinforced concrete slabs, equipment foundations, and structural interfaces associated with processing plant installation.
Designs were developed to accommodate dynamic loading conditions from mechanical processing equipment and operational vehicle traffic.
Electrical engineering services included development of low-voltage distribution layouts, integration of processing equipment loads, cable routing strategies, and protection coordination. The project required coordination of multiple mechanical processing systems with the site power infrastructure.
Support was also provided for high-voltage testing and commissioning activities to ensure safe energisation and operational readiness.
VGEE assisted with preparation of tender documentation, technical clarification during procurement, and review of contractor submissions. During construction, site coordination services were provided to ensure alignment between civil works, electrical installations, and mechanical equipment integration.
Commissioning support included verification of installed systems, testing coordination, and preparation of as-built documentation for handover.
The facility was delivered with coordinated civil and electrical infrastructure capable of supporting high-capacity waste processing operations.
The project required integration of heavy industrial infrastructure within an operational environment while maintaining safety, compliance, and programme control.
Wiradjuri Solar Farm- Solar PV & Battery Energy Storage Integration
VGEE provided multidisciplinary engineering and project development support for the Wiradjuri Solar Farm, a hybrid renewable energy project integrating utility-scale solar photovoltaic generation with battery energy storage infrastructure.
The project was developed to enhance grid stability, support regional energy resilience, and enable long-term sustainable power generation within a remote and infrastructure-sensitive environment.
VGEE supported the project from early-stage feasibility and concept development through structured technical assessment. This included evaluation of site constraints, grid connection strategy, generation capacity optimisation, and integration of battery energy storage to support dispatchability and network compliance.
Energy modelling and capacity assessments were undertaken to determine optimal DC/AC sizing ratios and battery storage configuration to align with grid requirements and operational objectives.
VGEE prepared conceptual and detailed engineering inputs for the solar PV arrays, inverter configuration, and battery energy storage system integration. Particular focus was placed on:
- Optimisation of array layout based on land profile and environmental constraints
- Electrical design coordination for DC and AC systems
- Protection philosophy and grid compliance strategy
- Integration of battery systems for peak management and stability support
- The project required coordinated design across civil, electrical, and energy storage systems to ensure reliability and scalability.
Support was provided for grid connection studies, protection coordination, and compliance alignment with applicable network requirements.
The system architecture was designed to ensure stable operation under varying generation and load conditions, with consideration given to export control and grid-support functionality.
VGEE supported preparation of technical documentation, coordination between engineering disciplines, and structured project development outputs required for stakeholder engagement and investment review.
This included concept documentation, performance modelling summaries, and technical design narratives.
The Wiradjuri Solar Farm represents a hybrid renewable infrastructure model integrating solar generation with battery storage to improve energy resilience and operational flexibility.
VGEE’s involvement ensured that the project progressed with a technically robust design framework, structured compliance pathway, and coordinated multidisciplinary integration.
Engineering Documentation Provided for solar farm in queensland
VGEE successfully delivered comprehensive engineering documentation for a utility-scale solar farm project in Queensland, supporting the project through detailed design, construction, and commissioning phases.
The scope included coordinated civil, structural, and electrical design documentation, developed to meet network service provider requirements, Australian Standards, and project-specific performance criteria. Documentation supported procurement, installation, grid connection, and final handover activities.
Some of our project drawings:-
4 MW Solar Carpark Installation – Bahrain
EPCM Services | Utility-Scale Solar Infrastructure
VGEE, in collaboration with its partner MPS Solar, delivered EPCM services for a 4 MW solar carpark installation in Bahrain. The project involved the development of a large-scale solar canopy system integrated within an operational facility, requiring coordinated engineering across structural, electrical, and construction disciplines.
VGEE’s scope included engineering oversight, design coordination, procurement support, and construction management to ensure alignment with project specifications and local regulatory requirements. Particular focus was placed on integrating the solar infrastructure with existing site conditions while maintaining operational continuity.
The project was delivered with a total value of approximately AUD 4.5 million, reflecting a cost benchmark of around USD 0.75/W for carpark-mounted solar systems, inclusive of structural and electrical infrastructure.
100 MW Solar PV Project – Lithuania Engineering & Project Development Support| Utility-Scale Solar
VGEE, in collaboration with its partner MPS Solar, has provided engineering and project development support for a 100 MW utility-scale solar PV project in Lithuania. The project involves large-scale ground-mounted solar infrastructure, requiring coordinated design development, optimisation, and technical review in line with European standards and site-specific conditions.
VGEE’s scope included engineering coordination, design validation, and optimisation of the plant layout, electrical configuration, and overall system performance. Particular focus was placed on improving energy yield, constructability, and cost efficiency across the project lifecycle.
The project represents an overall development value of approximately AUD 100 million, reflecting a utility-scale solar installation of significant scale and complexity.