ēFLØW's story
ēCompute — Powering the AI Factory
The electric system we inherited was built for homes and factories, not AI. It's analog, centralized, and maxed out. ēCompute starts from first principles — a clean slate. A new kind of electricity system for a new kind of compute.
AI & Data Centers: The Rise of AI Factories
15%
CAGR Through 2030
Global AI demand is driving rapid growth across data centers of all sizes.
30%
CapEx for Energy
AI factories allocate up to 30% of capital expenditure to energy infrastructure.
Growth of Data Centers (2020–2030)
AI factories convert vast energy into computational intelligence. Small data centers support local businesses and edge computing, medium centers serve enterprises with moderate to high computing needs, while mega centers cater to hyperscale and AI workloads. Traditional grids and solutions lack the speed, sustainability, and efficiency needed for AI's gigawatt-scale demands. eFlow's ēCompute provides smarter, greener energy to lead the AI revolution.
The Energy Crisis in AI Data Centers
Gigawatt-Scale Demand
AI data centers require 1-10 GW of power, with annual consumption of 8,760-87,600 GWh for a single hyperscale facility. According to McKinsey, data centers globally consumed ~460 TWh in 2022, projected to reach 1,000 TWh by 2030 (CAGR ~11%).
We expect this projection to be at least 10 times bigger.
Outdated Grid Infrastructure
The traditional grid struggles with connection delays exceeding 2-5 years and relies on analog systems with inefficient components like legacy transformers, unable to support AI's rapid growth.
Massive Energy Waste
Up to 30% of energy is wasted in traditional data centers due to inefficient power distribution and cooling. For a typical 100 MW AI data center, this translates to 30 MW of wasted power, costing ~$20-30 million annually at average electricity rates.
Legacy transformers have efficiency losses of 2-5% per unit, while eFlow's choice of digital transformers could achieve up to 99% efficiency. This inefficiency not only costs millions annually but also significantly harms sustainability efforts in an increasingly energy-conscious industry.
The solutions required for the data center
On-Site Generation: Utilizing solar, wind, and gas generators to reduce reliance on traditional grids, with some facilities integrating significant energy storage.
Energy Management: Systems designed to manage daily power fluctuations in AI workloads, leveraging storage for operational cost savings and efficiency.
Grid Commerce: Engaging in power purchase agreements (PPAs) to enable energy trading, aiming for flexibility despite continued grid dependency.
Digital Twin Integration: Implementing virtual models to optimize energy and cooling, potentially reducing costs. However, these still require considerable implementation time.
While the industry explores solutions like on-site generation, enhanced energy management, and digital twin integration, these approaches are fundamentally limited by persistent grid dependencies and lengthy deployment timelines. They simply cannot keep pace with the exponential growth demands of AI.
Next-Generation Electric Systems
Digital Components
AI-driven power management systems can use IoT and machine learning to optimize energy in real time, reducing waste by up to 40% (Forbes, 2024).
Smart Transformers
Digital transformers achieve 99.5% efficiency, minimizing losses compared to traditional transformers operating at 95% efficiency (Hitachi Energy, 2025).
Energy Storage
20 MWh BESS supports peak shaving and renewable integration, providing critical flexibility for AI workloads (Research and Markets, 2025).
Modular Systems
Scalable solutions support gigawatt-scale loads, with the modular data center market projected to reach $50 billion by 2030 (Grand View Research, 2024).
These emerging technologies are paving the way for revolutionary approaches to data center energy management. By combining digital components, smart transformers, advanced energy storage, and modular design principles, next-generation systems can achieve unprecedented efficiency and scalability to meet the demands of AI computing.
ēFlow's ēSystem: The Future of AI Data Center Energy
Tailor-Made for AI Data Centers
  • Tailor-made for high-density AI workloads.
  • Ensures efficient power delivery for GPU-intensive tasks.
  • Addresses the 945 TWh energy demand projected for 2030 (IEA, 2025).
Independent & Scalable
  • Battery-centric, standalone system eliminates grid dependency.
  • Scales seamlessly to meet growing AI data center needs.
Grid as Commerce Infrastructure
  • Enables energy trading, generating up to 15% revenue.
  • Smart grid interfaces optimize costs with real-time pricing.
  • Reduces reliance on traditional grid infrastructure.
Modular & Flexible Platform
  • ēMatrix, ēGen, ēApp, ēStore: Plug-and-play components for easy integration.
  • Open development platform for customization and future-proofing.
  • Powered by ēTwin digital twin.
At the heart of the ēSystem is ēTwin, a sophisticated digital twin that provides real-time simulation, optimization, and predictive maintenance capabilities. This integrated approach ensures maximum efficiency, reliability, and scalability for the most demanding AI workloads.
Partner with ēFlow: Tailored Dealmaking Options
Join the Electronet revolution: a decentralized, intelligent energy network for a fire-free future, tailored specifically for AI data centers to ensure resilience, efficiency, and scalability.
Advising
  • Expert guidance on design, execution, and operation of energy systems
  • Optimizes existing infrastructure with sustainable, AI-ready solutions
  • Ideal for clients seeking strategic support and integration expertise
Digital Twin Development
  • Develops the ēTwin digital twin for real-time simulation and optimization
  • Reduces energy waste and improves forecasting accuracy
  • Perfect for enhancing existing systems with advanced digital tools
Full Build
  • Designs, builds, and installs the complete ēSystem
  • Includes ēMatrix plug-and-play components and ēTwin for seamless operation
  • Best in the world mission oriented teams
Choose ēFlow for proven expertise in delivering innovative energy solutions with customized partnerships for maximum value and performance. Our flexible partnership models are designed to meet your unique needs while delivering industry-leading results.