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LV Distribution Boards

Spina Group offers LV distribution boards designed using CCF and GUB enclosures, ideal for creating Ex d / Ex de switchboards in various configurations according to customer specifications. These boards are suited for applications such as lighting distribution, power distribution, heat tracing, and motor starters.

Made from copper-free aluminum, stainless steel, or GRP, they are built to withstand harsh environments. With installation areas classified as Zone 1 – 2 / 21 – 22, these distribution boards provide reliable and safe solutions for hazardous locations, ensuring compliance with all relevant standards and customer-specific project requirements.

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PROJECTS

Our Successful Projects

Petrochemical

Project ONE

Project ONE is an INEOS project located within the Port of Antwerp, Belgium. The project involves the construction of a new ethane cracker with an annual production capacity of approximately 1.45 million tonnes of ethylene, a key feedstock for polymers and chemical products. Its aim is to strengthen the competitiveness of the European chemical industry through a highly energy-efficient facility with a lower environmental footprint than conventional crackers.

Bioenergy

ENAP Chile — WSA and SWS Units

ENAP, Chile’s state-owned integrated oil and gas company, has implemented Wet Gas Sulfuric Acid (WSA) and Sour Water Stripping (SWS) units at its Bío Bío Refinery in Hualpén as part of its environmental upgrade program. These facilities are designed to reduce sulfur emissions, treat sour process water, and support compliance with Chile’s stringent environmental regulations while improving the refinery’s overall environmental performance.

Bioenergy

H2GS — Sweden — 2.1 MTPY HDRI and BRI Plant

H2 Green Steel was launched in 2021 in Boden, northern Sweden, is designed to produce 2.1 million tonnes per year of hot direct reduced iron (HDRI) and hot briquetted iron (HBI) using fossil-free hydrogen-based direct reduction technology. The project aims to decarbonize steel production by replacing fossil fuels with renewable hydrogen during the iron reduction process. Integrated with an electric arc furnace (EAF), the plant is expected to reduce CO₂ emissions from ironmaking by up to 95% compared with conventional blast furnace technology, supporting the production of near-zero-emission steel. The start of production is planned in 2026.

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