Innovative solutions integrating renewables for scalable compute and heat valorization, serving datacenter operators and energy utilities effectively.
the flexibility needs of the European electrical grid could reach between 28 and 68 gigawatts (GW) by 2050, depending on the proportion of renewable energy integrated into the energy mix. (France Renouvelable)
Approximately 45% of Finnish households are heated by district heating systems. The share of waste heat used to supply these systems is increasing, as companies seek more sustainable energy sources. (Connaissance des Energies)
In 2023, European legislators raised the EU target for the share of renewable energy in gross energy consumption to 42.5% by 2030, with an ambition to reach 45%. (UE Report)
Our vision is to accelerate the decarbonization of the energy and data center sectors by designing, engineering, and deploying next-generation digital and thermal infrastructure. As global energy demand is expected to rise by 160% by 2030, we support utilities, data center operators, and industrial partners with solutions built for renewable integration, grid flexibility, heat valorization, and circular resource use.
We combine consulting, system design, and infrastructure delivery to enable both new deployments and the transformation of existing assets. Our mission is to help the industry scale computing capacity while reducing emissions, improving energy efficiency, and creating resilient, future-ready energy-digital ecosystems.
We assist data center operators in building heat-integrated sites in the Nordic-Baltics region, offering both advisory and full delivery services, from site scouting and feasibility analysis to engineering and complete design-build deployment.
We convert datacenter heat into local energy through feasibility studies, thermal engineering and integration with district and industrial networks.
We source and qualify off-market power-fiber-cold sites, assessing grid access, heat potential and execution conditions.
We optimize energy architecture, cooling and density to deliver heat-ready, low-carbon infrastructure built for HPC and AI workloads.
We support deployment across the Nordics & Baltics with regulatory navigation, utility coordination and on-the-ground project assistance.
Modular compute solutions powered by EDDUBOX, designed to maximize renewable energy use, support grid flexibility, and recover high-value heat for local energy systems. Our units operate directly where energy is available, converting electricity into digital capacity and usable heat that can be integrated into industrial processes, greenhouse applications, or district heating networks.
Maximizing the revenue of power plants by utilizing our mobile data center EDDUBOX as a flexible load.
We convert excess heat generated by servers into efficient, sustainable heating solutions, providing a reliable source of decarbonized energy for urban and industrial applications.
We act as a flexible load, actively supporting energy professionals, such as network operators and VPPs, in regulating and balancing the load on the grid in just a few seconds.
Converting waste gas from oil and gas sites into electrical energy, powering EDDUBOX, and reducing greenhouse gas emissions, especially methane.
Converting landfill biogas into electrical energy through EDDUBOX, mitigating greenhouse gas emissions, particularly methane, and contributing to sustainable waste management
EDDUBOX is a modular containerized compute platform designed for energy providers and infrastructure operators.
It converts renewable or under-utilized electricity into high-value digital computation through liquid cooling, delivering up to 85 °C heat via integrated heat exchangers for local energy systems and thermal applications.
Deployable at renewable sites, substations, industrial facilities, and other strategic energy locations.
A fully integrated plug-and-play system, scalable from 500 kW to 2 MW per unit, ensuring efficient energy-to-compute-to-heat performance and flexible expansion.
Scalable multi-unit deployments up to 10MW+
Output temperature up to 85 °C, without external priming.
From contract signature to operation
Weatherproof, relocatable, minimal site prep
An EDDUBOX with a footprint of approximately 40 sq ft is being developed to host up to 2 MW of computing capacity.
The system is designed to recover waste heat generated by the servers. Heat at around 82 °C will be routed through a dedicated pipeline to the district heating facility. The district heating system will condition and adjust the thermal output based on demand, including seasonal peaks in winter.
The computing load can be modulated to provide grid flexibility and balancing functions, allowing power consumption to adapt to grid conditions and renewable energy availability.
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