Grid inefficiencies result in significant costs for businesses each year.
According to the U.S. Energy Information Administration (EIA), about 5% of the energy generated in the U.S. is wasted due to transmission and distribution (T&D) losses.
At the same time, demand from energy-intensive industries such as data centers and manufacturing facilities and the increasing prevalence of renewable energy are placing more strain on the grid, making power outages more likely. Demand for electricity in the U.S. is projected to grow by as much as 15% by 2050. Rising demand coupled with grid inefficiencies and vulnerabilities results in higher rates and peak demand charges for businesses and consumers.
Fortunately, there’s good news — improving power efficiency can help businesses save on energy costs. Here’s how.
When most people hear “power efficiency,” they think of energy-saving actions such as purchasing energy-efficient appliances and turning off the lights when they leave a room. But power efficiency encompasses more than that. Here are a few key terms:
When your business operates with a low power factor, utility bills increase. Those added costs can be due to demand charges based on peak usage. Even if you’re not using any more actual power, your peak demand will appear higher because you’re consuming more apparent power. Other utility bill surprises could include the fees some utilities charge if the power factor drops below a certain level.
Operating with a poor load factor also yields unwelcome financial consequences. You’re using your peak capacity only occasionally, which means power use is inefficient, and you’re paying for infrastructure that isn’t used most of the time. Your utility company might also price its services to reward predictable use, also known as a high load factor. If that’s the case, your poor load factor will trigger higher unit prices per kilowatt hour, even if your total energy consumption doesn’t increase.
Many commercial and industrial facilities have volatile energy needs. They might experience voltage spikes during motor startups, equipment cycling, or digital load bursts. They often operate on shifts and produce products in batches, so they could have periods of high demand followed by little to no power demand. These fluctuations in power, also known as transient loads, create unpredictable utility costs due to demand charges.
Data centers pose a different power demand problem. They tend to have always-on loads that rapidly increase as computing needs grow, requiring more processing power. At the same time, data centers must run constant cooling systems to keep hardware from overheating. These cooling systems also need a significant amount of power to operate, especially when outdoor temperatures rise in the summer or server usage escalates.
Other industries impacted by volatile energy needs include oil and gas, retail and healthcare.
Microgrids are self-sufficient energy systems that power a specific area, such as a manufacturing facility or data center. By definition, a microgrid can operate independently of the grid when needed, often relying on distributed energy resources (DERs) and a battery energy storage system (BESS).
The BESS helps the microgrid achieve greater power efficiency for the facility it serves. It plays a crucial role in load-leveling, or flattening out the peaks and valleys in energy demand, because it can store excess energy generated during low-demand periods and use it when high-demand periods hit.
Because of its ability to facilitate load-leveling, a microgrid offers businesses a behind-the-meter advantage for boosting power efficiency. It can use stored energy to shave off the highest points of peak demand, reducing energy bills. Because it works to even out demand, a microgrid can also reduce the stress on transformers, inverters, and HVAC systems caused by high peaks and sudden drops in power demand.
Many microgrids also incorporate renewable energy sources like solar panels or wind turbines, reducing the facility’s dependency on fossil fuels and allowing the possibility of selling excess power back to the public grid. From the utility’s perspective, behind-the-meter systems like microgrids absorb spikes and present a flat, stable load.
Unlike traditional solutions that demand lengthy implementation and infrastructure upgrades, our patented R3Di® system offers a compact, all-in-one power platform that can be quickly deployed, with no interconnection agreement or expensive utility modifications needed. Its dual inverter design instantly absorbs transient loads. Fast-discharging lithium iron phosphate (LiFePO4) batteries manage power spikes from high-inrush loads like pumps, compressors, and transformers, delivering a smooth, consistent output of conditioned power. The R3Di® ensures a high power factor (up to 99%) and reduces peak demand charges.
A utility-grade, onsite power generation system, the R3Di® System is capable of providing instantaneous full-load pickup and sustaining power during long-duration outages.
What could installing the R3Di® System mean to your business or facility? Let’s consider the data so you can crunch the numbers:
With the R3Di® System, you’ll reduce the number of outages and cut back on maintenance needs (and costs)—savings that improve your bottom line.
The R3Di® System rests on a foundation of powerful software and expert-driven monitoring services. Grid Response Optimization of Virtual Energy (Grove365) monitors weather models, grid conditions, market pricing, and your energy assets around the clock, seven days a week. Grove365 provides real-time optimization, remote dispatching, and asset health tracking, taking a proactive and adaptive approach to energy management. Together, R3Di® and Grove365 create Virtual Utility® , an integrated system that manages energy costs, emissions, and performance.
Adopting the R3Di® System can result in microgrid energy savings by reducing peak demand charges, infrastructure spending, and more. Here’s a closer look at how an onsite energy system can help different businesses save:
The system also helps companies meet ESG targets and stay ahead of environmental compliance, reducing emissions from diesel generators by up to 99%. When you install R3Di® System, you may also qualify for tax incentives up to 40%.
To learn more about the costs and potential savings, try our Virtual Utility calculator.
Today, energy efficiency is not just about lighting upgrades. It's about demand-side intelligence. Next-generation microgrids like the R3Di® System help to reduce costs, improve reliability, and future-proof your energy strategy. To learn more about how the R3Di® System could benefit your company, schedule a discovery call today.