H2 Green Steel Substation (E-House) Project

The project involved the design of modular steel-framed E-House buildings housing critical electrical infrastructure, including substations and control systems. These prefabricated units were engineered for transport, installation, and long-term operation in extreme environmental conditions.

Key components included:

• Four modular buildings: UCC001, UCC002, LER001, and LER002
• Structural systems comprising:
• Steel frames (beams, columns, purlins, girts, bracing systems)
• Integrated flooring systems with equipment support frames
• External platforms, walkways, stairs, and handrails
• Buildings designed for modular transport and bottom-lift installation
• Integration of HVAC support platforms (two distinct types for different building configurations)

The structures were required to meet European (EN) and IEC standards, along with project-specific performance criteria.

This project required advanced structural engineering due to its stringent performance and environmental requirements:

• Extreme climatic conditions, with temperatures ranging from -40°C to +40°C and high humidity levels
• Corrosive environment (C4 classification) requiring enhanced durability and protective systems
• Heavy equipment loads, with floor loadings up to 1000 kg/m² and building weights up to 130 tonnes
• Transport and lifting constraints, requiring structural integrity during shipping (sea transport) and bottom-lift operations
• Blast resistance requirements for specific buildings (e.g., LER002), adding complexity to structural design
• Strict serviceability criteria, including deflection limits and integration with sensitive electrical equipment

We delivered a comprehensive structural solution tailored to the project’s complexity:

• Full structural analysis and design of modular steel buildings, including primary and secondary framing systems
• Design of HVAC support platforms, ensuring compatibility with equipment loads and operational requirements
• Integration of transport and lifting design, ensuring structural stability during handling and installation
• Consideration of blast loading requirements where applicable, incorporating appropriate structural detailing
• Development of detailed structural calculation packages and certification documentation for all modules
• Alignment with European design codes and project-specific Basis of Design

• Modular buildings up to 130 tonnes in transport weight
• Floor design capacity up to 1000 kg/m² under equipment loads
• Designed for extreme climates (-40°C to +40°C)
• Integration of blast-resistant structural systems
• Compliance with EN & IEC international standards