microgrids
Next-Gen Power Generation, Storage and Load Management
Leverage your existing infrastructure to manage, optimise and control power generation, storage, load and demand - all from a single integrated system.

A microgrid is an energy management system that can operate independently or in sync with the main power grid. It typically includes renewable energy sources like solar or wind power, energy storage systems, and sophisticated control technologies. This setup allows for localised generation, storage, and distribution of electricity, providing enhanced energy reliability and efficiency.

Manage & Control

Gain total control over your renewable power generation and distribution, optimising energy use across your facilities.

Optimise Battery Energy Storage

Store excess power generated and use it when you need it the most – no more energy wastage!

Environmental Impact

Microgrids significantly cut greenhouse gas emissions by incorporating renewable energy sources.
BESS
Battery Energy Storage Systems
Store excess power generated and use it when you need it the most – no more energy wastage!

Battery energy storage systems are rechargeable systems that store energy from renewables or grid power that can be used as a reliable power backup. They contain advanced technology that regular batteries do not, allowing them to perform tasks such as peak shaving and load shifting or offer short-term responses to the local electrical network by injecting power when grid disturbances occur.

Balance Load & Demand

Respond quickly to changes in energy demand with seamless load balancing, ensuring consistent power supply.

Meet Your Sustainability Goals

Store excess renewable energy generated during off-peak times and deliver it when demand is high, making renewable energy more reliable.
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Maximise your existing infrastructure to:

  • Manage & Control Renewables: Take full control of your renewable energy production and distribution, optimising energy usage across all your facilities.
  • Optimise Battery Storage: Capture and store surplus energy for use when it’s most needed, eliminating waste and improving efficiency.
  • Balance Load & Demand: Adapt swiftly to changes in energy demand with seamless load balancing, ensuring a continuous power supply.
  • Achieve Sustainability Goals: Accelerate your transition to cleaner, renewable energy sources, aligning with your sustainability objectives.

CASE STUDY

Right now, your facility relies on power from the grid, with limited control over your solar PV and CHP systems. Relying solely on power from the grid exposes your facility to several risks and limitations. One major concern is the vulnerability to grid outages, which can cause operational disruptions and unplanned downtime, potentially impacting your productivity and revenue. Grid reliability can fluctuate due to weather events, maintenance issues, or even demand overloads, leaving your facility without power when it’s most needed.

As your facility expands and you work towards achieving your sustainability goals, incorporating technologies such as a Battery Energy Storage System (BESS), EV chargers, filters, gensets, and other loads can offer greater flexibility in how you generate, store, and use energy. By implementing these upgrades through a phased approach, supported by smart metering and predictive analytics, you can ensure seamless integration of each component. This will allow you to store energy during periods of excess generation and use it when demand is high, ultimately improving energy efficiency and reducing dependence on grid power.

Now your facility operates with a fully optimised microgrid system. With advanced control systems in place, you can efficiently balance energy generation, storage, and consumption, ensuring seamless coordination between renewable power sources, the grid, and your facility’s key systems—such as HVAC, Building Management Systems (BMS), Filters, and other critical equipment. The microgrid dynamically distributes power where it’s needed most, maximising the use of renewable energy, reducing waste, and ensuring a reliable, uninterrupted power supply. This setup enables your facility to achieve true energy independence, lower operating costs, and significantly reduce its carbon footprint, positioning you as a leader in both sustainability and operational efficiency.

Benefits: Constant monitoring of loads for ISO50001 compliance and quick failure identification & power quality
Benefits: Control of setpoints and curtailment, monitoring of generation and alarms
Benefits: Control of setpoints, generation and participation in DS3
Benefits: Control of loads and curtailment plus charging per user
Benefits: Increased site resilience, support of load in absence of generations and DS3 participation and return
Benefits: Control of loads and curtailment, supervision, accountability, alarms and monitoring
Benefits: Increased site resilience, monitoring, setpoints and DS3 Participation
Benefits: Increased system reliability, supervision, alarms and monitoring

NEED A SAFE, MORE RELIABLE AND COST
EFFECTIVE ELECTRICAL SYSTEM?

Speak to one of our expert engineers today.

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