OUR MICROGRIDS
Reliable, resilient and scalable power today
Optimised performance and economics
An accelerated pathway to clean energy
Whether you need 500MW or 5GW, Floral Energy provides resilient power that evolves with your business.
Transport: Smart Charging for Cleaner Fleets
As transport systems electrify — from fleets and depots to ports and logistics hubs — operators face growing pressure to deliver reliable charging, fast.
Grid capacity is limited, infrastructure delays are long, and energy costs are rising.
Floral’s onsite microgrids enable rapid charging, real-time cost control, and energy mix optimisation — with the flexibility to scale and decarbonise over time.
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Multi-year grid delays for high-capacity charging infrastructure
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High demand charges and unpredictable electricity pricing
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Tight windows for charging between shifts or journeys
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Requirements to reduce emissions and meet ESG objectives
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Risk of overinvesting in temporary or inflexible infrastructure
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Resilient, standalone charging infrastructure without grid reliance
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Smart scheduling and load balancing to optimise cost and availability
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Modular systems that scale with demand across fleets, ports, and depots
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Built-in support for solar, battery storage, hydrogen production and cleaner fuels
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Future-proofed systems — with nuclear-ready architecture where high-volume charging requires next-gen reliability and scale
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Click on the photo below to enlarge.
Providing high-demand sectors with high-integrity power
Data Centres: High-resilience power in the era of AI
Data centres are powering the digital revolution, but their energy needs are growing faster than current infrastructure can support.
Uptime is critical, demand is astronomical, and while today’s renewables are essential, they can’t meet this scale alone.
Nuclear offers the most viable path to clean, reliable, high-capacity energy — and Floral ensures you're ready for it.
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Rapidly increasing energy demand from AI, cloud computing and digital services
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Grid connection delays of 3–10 years in many high-growth regions
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Mission-critical uptime requirements - 99.999% availability is essential
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Escalating energy costs and exposure to price volatility
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Decarbonisation challenges - to deliver on commitments and uphold business reputation
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Uncertainty around future-proofing and long-term energy strategy
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Resilient, independent microgrids, now - with 99.999% uptime up to 500MW scale
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Nuclear-ready architecture designed from day one to integrate SMRs, AMRs, and fusion - eliminating stranded assets
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AI-driven optimisation of your energy mix in real time for lowest cost and carbon
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Integration with clean tech including renewable generation, battery storage, carbon capture, hydrogen production and more
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Evolving infrastructure - to match your growth, operations and sustainability goals
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Modelling of a typical data centre power profile, for a total load of 300MW, using a theoretical microgrid based in Texas.
Microgrid delivers $0.15/kWh* and 0.027 kgCO2e/kWh
*Operating Costs only
This microgrid incorporates:
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bank of reciprocating engines (able to flex fuels)
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200 MW solar array
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200MW battery storage system
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connection to the main grid to enable the buying and selling of power, optimised according to market prices.
Excess power is used for:
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battery charging
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providing power back to the grid
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generating green hydrogen.
The target carbon footprint is set to 0.03kg CO2e/kWh.
Microgrids can also be optimised for for minimal emissions - the cloud based controller acts to the constantly changing renewable generation and can adjust your generation source and fuel type in real time.
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Rapidly increasing energy demand from AI, cloud computing and digital services
-
Grid connection delays of 3–10 years in many high-growth regions
-
Mission-critical uptime requirements - 99.999% availability is essential
-
Escalating energy costs and exposure to price volatility
-
Decarbonisation challenges - to deliver on commitments and uphold business reputation
-
Uncertainty around future-proofing and long-term energy strategy
-
-
Resilient, independent microgrids, now - with 99.999% uptime up to 500MW scale
-
Nuclear-ready architecture designed from day one to integrate SMRs, AMRs, and fusion - eliminating stranded assets
-
AI-driven optimisation of your energy mix in real time for lowest cost and carbon
-
Integration with clean tech including renewable generation, battery storage, carbon capture, hydrogen production and more
-
Evolving infrastructure - to match your growth, operations and sustainability goals
-
Modelling of a typical data centre power profile, for a total load of 300MW, using a theoretical microgrid based in Texas.
Microgrid delivers $0.15/kWh* and 0.027 kgCO2e/kWh
*Operating Costs only
This microgrid incorporates:
-
bank of reciprocating engines (able to flex fuels)
-
200 MW solar array
-
200MW battery storage system
-
connection to the main grid to enable the buying and selling of power, optimised according to market prices.
Excess power is used for:
-
battery charging
-
providing power back to the grid
-
generating green hydrogen.
The target carbon footprint is set to 0.03kg CO2e/kWh.
Microgrids can also be optimised for for minimal emissions - the cloud based controller acts to the constantly changing renewable generation and can adjust your generation source and fuel type in real time.
-
Transport: Smart Charging for Cleaner Fleets
Critical institutions need reliable, cost-stable power in the face of ageing infrastructure, price volatility, and rising emissions goals. As transport systems electrify — from fleets and depots to ports and logistics hubs — operators face growing pressure to deliver reliable charging, fast. Grid capacity is limited, infrastructure delays are long, and energy costs are rising.
Floral’s onsite microgrids enable rapid charging, real-time cost control, and energy mix optimisation — with the flexibility to scale and decarbonise over time.
Floral delivers continuous, resilient energy with integrated CHP— keeping operations running, costs predictable, and carbon impact in check.
-
Multi-year grid delays for high-capacity charging infrastructure
-
High demand charges and unpredictable electricity pricing
-
Tight windows for charging between shifts or journeys
-
Requirements to reduce emissions and meet ESG objectives
-
Risk of overinvesting in temporary or inflexible infrastructure
-
-
Resilient, standalone charging infrastructure without grid reliance
-
Smart scheduling and load balancing to optimise cost and availability
-
Modular systems that scale with demand across fleets, ports, and depots
-
Built-in support for solar, battery storage, hydrogen production and cleaner fuels
-
Future-proofed systems - with nuclear-ready architecture where high-volume charging requires next-gen reliability and scale
-
Industry & Essential Services: Reliable energy for essential operations
Manufacturers, hospitals, education campuses, distilleries, and other energy-intensive facilities rely on uninterrupted power to stay operational, efficient, and compliant
Archaic infrastructure, however, is making this harder than ever, while rising costs and the need to use more sustainable energy adds further pressure.
Floral Energy delivers continuous, resilient energy with integrated CHP - keeping critical operations running, costs predictable and reducing carbon impact.
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Grid instability and blackouts affecting continuity and safety
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Unpredictable energy costs with few tools to manage them
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High thermal and electrical loads, ideal for CHP
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Decarbonisation targets - both voluntary and mandatory - becoming increasingly critical
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Infrastructure constraints that slow down progress toward net-zero
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Reliable, cost-predictable energy tailored to your operational profile
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Integrated CHP systems that improve efficiency and reduce waste
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Controls and emissions tracking optimised in real time using AI insights
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Flexibility to integrate renewables, hydrogen, and battery storage
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Nuclear-ready system design for large-scale or strategic sites where zero-carbon baseload is the future
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Future Readiness: Built to power now, while evolving for what's next
Systems that evolve with your business
Flexible, future-ready energy systems — with nuclear integration by design, accelerating your pathway to Zero Carbon.
Floral microgrids provide resilient power, today, and are engineered from the start to evolve with your long-term strategy.
Whether you’re planning for next-gen nuclear, preparing for fusion, or integrating advanced clean tech like hydrogen or carbon capture, our architecture ensures long-term flexibility and future-proofed energy performance — without wasted investment or stranded assets.
Flexible, future-ready energy systems — with nuclear integration by design. Floral Energy offers:
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Nuclear-ready design – Seamless integration of SMRs and AMRs as soon as they’re viable
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Fusion compatibility – Structured to support energy input, control and storage integration
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Evolves with next-gen technologies – Ready to layer in hydrogen, carbon capture, next-gen batteries and more, always driving carbon reduction
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No stranded assets – Every component contributes to your clean energy evolution and is part of long-term view
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Floral Energy's microgrid architecture has been designed from the start to integrate with Small Modular Reactors and Advanced Modular Reactors.
Microgrid systems are engineered to connect directly with Small and Advanced Modular Reactors, unlocking long-term resilience and zero-carbon baseload power.
As fusion matures, Floral’s platform enables integration of fusion sources - using the microgrid stack to manage ignition energy, buffer output through batteries, and support seamless technology evolution.
