Energy

Pioneering sustainable energy solutions.

Efficient Energy Solutions

GF Piping Systems offers modular piping solutions for multiple energy applications. Our engineering capabilities help optimize space and reliability while meeting the sector's stringent operational demands. We enhance energy storage through advanced thermal management and efficient electrolyte distribution, and our leak-free systems prevent environmental contamination and operational interruptions in the biofuel sector, supporting sustainable practices and the circular economy. We are committed to driving the global shift towards a more sustainable energy future. 

Benefits

Enhanced Efficiency

Cutting-edge, durable piping solutions that optimize energy transfer and system performance in power plants and renewable energy projects.

Sustainability

Our innovative piping solutions contribute to the global shift towards sustainable energy by reducing environmental impact across various industries, including renewable energy and energy storage.

Operational Safety

We deliver reliable, corrosion-resistant piping systems designed to ensure the highest safety standards in the energy sector, protecting infrastructure, people, and the environment.

Longevity through Durability

Our robust piping solutions enhance the efficiency and longevity of flow batteries and thermal management systems.

Versatile Application Support

From district heating and cooling to hydrogen production, our versatile piping solutions meet the energy sector's diverse needs, fostering innovation and sustainability in all applications.

Building Partnerships for Life

Martin Sylven

Head of North Europe, GF Piping Systems

"It's all about a long-term commitment built on trust and openness. We want to be a reliable and supportive partner during all project phases, adding value with our expertise in plastic piping systems and our superior GF solutions for customers."

Success Stories

Dogger Bank HVDC Substations

Hitachi Energy, Sweden 

With the Dogger Bank Wind Farm project in Britain, we once again demonstrated our innovative strength and contributed to the success of the largest offshore wind farm in the world with modular prefabricated structures within three conversion substations on the high seas and three on land.

Anergy network, Switzerland

EWL, Switzerland

Swiss municipality EWL uses ecological energy from Lake Lucerne as a sustainable heat carrier for the heating and cooling of 7,000 households.  For the material selection, a polyethylene (PE) pipeline system and welded connections from GF Piping Systems came out on top.

Sub-Industries

FAQs

How long has GF Piping Systems been involved in the energy sector?

GF has been committed to developing solutions for efficient energy production for many years and, in doing so, has supported the global trend towards the more intelligent and sustainable use of resources. For many decades, we've supported customers in numerous industries to improve their environmental impact, including in the energy sector, and we are now heavily focused on supporting the renewable energy challenge with our in-depth knowledge of numerous key applications

Why are polymer systems more effective in supporting the energy sectors requirements?

Polymer piping systems enhance efficiency, safety, and sustainability across various applications, from renewable energy installations to biofuel production and high-voltage direct current (HVDC) substations. Adopting polymer systems supports the energy sector's goals of improving performance, reducing environmental impact, and lowering operational costs, making them an ideal choice for modern energy infrastructure.

In what ways does GF Piping Systems contribute to the sustainability goals of the energy sector?

GF Piping Systems contributes to the energy sector's sustainability goals by providing corrosion-resistant, durable, and lightweight polymer piping solutions that reduce environmental impact. Our systems enhance energy efficiency and reliability in renewable energy projects like wind farms and support advanced energy storage technologies, including flow batteries and pumped storage hydropower. Our eco-design principles, Life Cycle Assessments (LCAs), and Environmental Product Declarations (EPDs) align with global sustainability standards, enabling reduced carbon footprints and long-term operational efficiency across various energy applications.