Our Power Solution
We support Industrial electrification
We make it our business to power your business
Powering your operations with renewables. Read more on our experience within
Logistics
Electrification in logistics—especially for fleet depots—is accelerating, driven by cost, regulatory pressure, and performance gains. Microgrids play a pivotal role by combining EV chargers with local solar generation and battery storage, enabling depots to deliver power at lower cost and with greater price flexibility.
For example, a well-designed microgrid can supply over 60% of daily charging needs, maximizing margins while undercutting diesel on a per-km basis. Unlike truck stops, which prioritize fast charging, depots benefit from overnight charging using Level 2 and Level 3 chargers—further optimizing energy use and cost. Batteries can be charged when grid prices are low and discharged during peak hours, reducing demand charges and improving resilience.
Microgrids turn depots into energy hubs, delivering predictable costs, reliability, and a competitive edge in a fast-changing freight landscape.
Contact us to learn more about microgrids and financing for logistics.
Ports
Ports are complex energy ecosystems with diverse electrification opportunities—from shore power to vehicles, cargo equipment, and buildings.
Shore power (“cold ironing”) for cruise ships and ferries can demand 10 MW or more per vessel, creating peak load challenges when multiple ships are docked. Electric vessels are still emerging, mostly limited to small ferries and tugboats.
On land, light-duty EVs are ready for deployment, while heavy-duty trucks and rolling cargo equipment face range and charging limitations, but intra-terminal distances make electrification feasible. Electrifying cranes, gantries, and reefers is straightforward due to fixed infrastructure, while warehouses and offices benefit from HVAC upgrades and solar integration.
However, these systems create volatile, high-volume energy demands that local grids often can’t handle. Microgrids can relieve the strain by integrating onsite renewables, smoothing peak loads, and ensuring resilient power for critical port operations.
Datacenters
Data centers are mission-critical infrastructure with soaring energy demands—and in some key regions they are reaching their limits. Connecting new facilities to utility power can take years, leading to costly delays.
Microgrids now offer an essential path forward, enabling data centers to secure reliable, on-site power with renewable integration, battery storage, and backup. These systems support net-zero objectives while reducing transmission losses and exposure to grid instability.
Operators increasingly outsource microgrid development to match pace with data center construction, often combining solar, storage, and advanced controls. Microgrids offer electricity price diversification, lowered CO2 emissions, and an extra layer of redundancy easing implementation of gensets.
Contact us to learn more about microgrids and financing for data centers.
Heat pumps
Pulp & paper
This industry uses substantial thermal and mechanical energy, traditionally fueled by biomass, coal, or gas. Electrification of drying, processing, and internal logistics offers long-term cost reductions and decarbonization.
Opportunities exist in electrifying lime kilns, replacing diesel transport, and integrating heat pumps. The challenge is the scale and continuous nature of energy needs—any disruption can halt production.
Microgrids enable the integration of onsite renewables, improve energy efficiency, and provide stable power for critical processes, especially in off-grid or weak-grid areas.
Contact us to learn more about microgrids and financing for pulp and paper electrification.
Islands
Islands face significant energy challenges, often relying on imported fossil fuels, which makes electricity costs higher and poses energy security risks. They are also on the frontlines of climate change, experiencing rising sea levels and extreme weather. Microgrids offer a solution by enabling islands to generate, store, and manage power locally with renewables like solar or wind, backed by battery storage. These systems reduce reliance on diesel, enhance resilience during grid outages, and lower fuel import costs.
Digitalisation enhances microgrid performance through AI-driven forecasting and smart energy communities. Projects like Puerto Rico’s community microgrids and Europe’s VPP4ISLANDS initiative show how DER, storage, and virtual power plants can transform island grids into clean, resilient systems. With a Plexar solution, island electricity administrators maintain control while accessing a fully financed and operated solution, accelerating microgrid deployment without compromising control.
Contact us to learn more about microgrids and financing for island electricity systems.
mining
Mining and metal s operations are typically remote, energy-intensive, and highly dependent on reliable power. Historically reliant on diesel generators, these sites face high fuel costs, logistics complexity, and massive CO₂ emissions.
Microgrids offer a transformative alternative—localizing energy generation, integrating renewables like solar and wind, and cutting transmission losses that can be substantial over long distances. They also provide the resilience to operate independently or in hybrid mode with weak or intermittent grids, minimizing downtime.
Cloud-based platforms simplify operations, optimize energy dispatch based on tariffs and weather, and reduce the need for onsite energy expertise. With falling costs of solar and batteries, microgrids deliver strong ROI—while supporting both decarbonization and energy independence. With a Plexar solution you can achieve up to 80% renewable energy where wind and solar can be combined.
Contact us to learn more about microgrids and financing for mining and minerals electrification..
A Microgrid solution from A-Z
PLEXAR ENERGY OFFERS A FULLY FINANCED INTEGRATED END-TO-END POWER SOLUTION
Our offering
Our offering includes a fully financed and integrated end-to-end Microgrid power solution, from design to operation and optimization. You get access to a professionalized microgrid service, while unlocking a seamless electrification of end-usages and ability to deploy renewable energy for your business at scale and pace.
site-specific design & engineering
Site-specific microgrid design and engineering, ensuring microgrid’s design is tailored to off-taker’s needs, goals as well as local constraints
permitting
Securing all necessary permits and approvals, while managing environmental and social impacts.
construction & installation
Procuring all required components and overseeing installation of microgrid’s assets according to plans and budget while managing key risks
maintenance & operations
Monitoring assets’ performance, conducting required maintenance and identifying preventive maintenance to ensure optimal operations
optimization
financing & ownership
We offer a fully financed off-balance sheet solution without any upfront investment required from our customers.
Read more
Microgrids – a smarter way to orchestrate distributed energy
ADDING FLEXIBILITY THROUGH A combination of generation & storage
Microgrids significantly advance the integration, control, and optimization of distributed energy resources (DERs). By combining local generation like solar or wind with battery energy storage systems (BESS), microgrids align energy supply with demand, even when renewable generation is intermittent. This flexibility allows participation in balancing and ancillary service markets, including frequency regulation and voltage support.
Advanced control systems within microgrids provide fast frequency response and synthetic inertia, crucial as conventional generators retire. Co-locating energy production and consumption reduces transmission losses and peak demand stress on utility grids, deferring expensive grid upgrades.
Moreover, microgrids can island from the main grid during outages, providing resilience and energy security. Integrating AI, IoT, and dynamic load control, microgrids optimize self-consumption and act as decentralized energy orchestrators, enabling a faster transition to a net-zero energy system.
