Virtual Power Plant FAQs: What Is a VPP and How Does It Work?
Originally published on NRG Energy Insights
Have you ever thought about where your electricity comes from? Maybe you picture massive generators or big spinning turbines. That’s been the norm for over a century. But what if your home, your neighbor’s home, and even the electric car in someone’s driveway could work together to provide power to an entire neighborhood?
That’s the idea behind Virtual Power Plants, or VPPs. They’re changing the way we think about energy use and power generation. However, many people are still unfamiliar with this type of energy network. From how they work to the many benefits they provide, we’ve gathered the most common questions asked about VPPs.
1. What exactly is a VPP?
A VPP is a network of decentralized energy sources — like solar panels, home batteries, and smart devices — that work together to generate, store, and manage electricity.
Think of it like this: a single large power plant can supply energy to thousands of homes. When thousands of smaller devices are aggregated, they work together and function much like a power plant, supplying electricity when it’s needed most and helping ease demand on the grid.
2. How do VPPs work?
Let’s say your neighborhood has many homes with rooftop solar panels and backup batteries. On any exceptionally sunny day, those solar panels can generate more electricity than people use. The excess energy is then stored in battery storage systems or sent back to the grid.
Now imagine it’s a sweltering summer evening (Houston, we’re looking at you), and everyone’s cranking their air conditioning to stay cool. As the sun goes down, the grid may be under stress. That’s where the VPP steps in. It can tap into all those connected devices — batteries, smart thermostats, and even electric vehicles (EVs) — and either reduce energy use or send stored energy to the power grid.
In a way, a VPP turns your home into both an energy producer and a smart energy user.
3. Why do we need VPPs?
One challenge with traditionally generated electricity is that it must be used as soon as it is generated — battery storage does not currently have the capacity to store the large amounts of electricity needed to power our lives. That’s not a big deal for traditional power plants. But as we shift to renewable energy sources like wind and solar, it gets trickier.
Why? Because we can’t control the wind and the sun.
That’s where VPPs come in. They add flexibility to the grid, allowing us to reduce demand or supplement traditional energy generation when needed and viable. Instead of firing up a peaker plant (which are quick-response power plants used during intense electricity demand that are high in cost and greenhouse gas emissions), VPPs can fill the gap.
4. What’s in a VPP?
The magic of VPPs lies in the devices that power them. These are called Distributed Energy Resources (DERs). You might already have one in your home! Some examples include:
- If you have a smart thermostat, it might slightly raise or lower the temperature in your home to save energy (and money).
- If you have a home battery, it can be deployed to power your home when grid energy is limited or renewables are not available.
- If you have an electric vehicle, you could earn money for charging your electric car overnight instead of during the day.
Small changes, when done together, can have a large impact — on the grid and on your wallet.
5. How do VPPs benefit you?
You may be wondering what VPPs can do for you. First, there’s the potential to save money. Many energy companies offer programs rewarding customers for participating in a VPP. For example, you could get credits on your bill for allowing your battery or thermostat to be turned on or adjusted during peak load times.
Beyond financial savings, joining a VPP means you’re helping create a more resilient grid. VPPs manage how electricity is used rather than how it’s produced. They adjust energy use from smart devices, batteries, and commercial buildings to reduce stress on the grid. This means that simply by participating, you’re contributing to a more reliable energy system.
6. What role does technology play?
Today, phone apps are used to manage so much of our lives. From paying your bills to turning on your car, you can control so much from the palm of your hand, and that includes your energy usage. Through our app, you will gain more control over your home and your energy use than ever before.
From your doorbell camera to your smart thermostat, imagine being able to manage the needs of your home — and help the grid — in real time. That’s where automated demand response comes in.
7. Are VPPs really worth it?
Yes, VPPs are absolutely worth it, as they provide real benefits for both your wallet and the power grid. In fact, research from the Rocky Mountain Institute suggests that VPPs can reduce electricity costs by $140 per household annually. Some energy providers even offer bill credits and other incentives for enrolling in VPP programs.
Beyond savings, VPPs also help improve grid reliability and sustainability, helping lower emissions and reduce the load on traditional power plants.
With smarter energy management, cost savings, and environmental benefits, VPPs are a win-win for homeowners.
8. Why are VPPs the next big thing in energy?
Energy systems are evolving fast, and as renewable energy sources become more and more common, VPPs will become more important.
In fact, the future of VPPs is already unfolding. NRG, in partnership with Renew Home and Google Cloud, is developing a 1 GW AI-powered VPP in Texas, which will use smart thermostats and other connected devices to help customers optimize energy use, lower costs, and enhance grid resilience.
Additionally, more homeowners are upgrading to smart-enabled appliances. Devices like heat pumps and water heaters are being designed with connectivity in mind, allowing them to adjust energy use in real time. This growing network of smart devices will make VPPs more flexible, scalable, and effective at integrating renewable energy into the grid.
By giving homeowners greater control over their energy use and helping transition to a more sustainable grid, VPPs represent the future of energy — smarter, cleaner, and more resilient.
The takeaway
Virtual Power Plants are more than a novel energy concept — they’re a practical, people-first solution to some of our biggest energy challenges. And they’re already transforming our energy landscape.
