Magnon offers the agri-food industry the opportunity to boost its decarbonization with renewable thermal energy from biomass.

Magnon, Ence’s renewable energy subsidiary, will be present at a new edition of Expobiomasa, held from May 6 to 8 in Valladolid. The event, one of the leading bioenergy trade shows in Europe, brings together more than 350 companies, professionals, and experts in the biomass sector, as well as the largest display of technologies and solutions for competitively replacing fossil fuels in industrial processes.

At this event, the company will share its vision of the role this energy source can play in the production of renewable, stable, and flexible electricity, whose generation is synchronous and contributes to system stability. It will also address the thermal uses of biomass and its use as a raw material for the production of renewable fuels.

Solution for the agri-food industry

At Expobiomasa, Magnon will present the process of expanding its activities toward new renewable energies and, specifically, toward renewable thermal energy.

The company, the largest biomass manager in Spain, offers comprehensive solutions for industrial clients. It manages biomass supply; logistics and processing; plant design and construction; operation and maintenance; and waste management.

In this way, it offers an efficient decarbonization path for the agri-food industry while also reducing energy costs and volatility compared to fossil fuels.

2,000 GWh of renewable thermal energy by 2030

Magnon aims to achieve a production of 2,000 GWh of renewable thermal energy by 2030. The company, which signed its first service contract in 2023, currently has a project underway to supply 85 GWt per year starting in 2026 and has three more initiatives in the pipeline with an estimated combined annual production of 130 GWt/year.

Regarding the latter, construction is expected to begin in 2025. Furthermore, negotiations are underway with ten other potential industrial clients in Spain to supply them with renewable thermal energy.