Compare the highest-rated home solar professionals in Granby, Vermont. All contractors are licensed, insured, and verified through our rigorous screening process.
SunCommon is a Vermont-based B-Corp and one of the state's leading residential solar installers. They are widely recognized for their community-focused model, extensive experience with Vermont's climate and incentives, and comprehensive service from consultation to maintenance.
A leading electrical and solar contractor based in St. Johnsbury, serving the Northeast Kingdom, including Granby. They are known for high-quality craftsmanship, expertise in both grid-tied and off-grid systems, and strong customer service.
A specialized solar installation company located in Littleton, NH, that actively serves the North Country of New Hampshire and Vermont, including the Granby area. They offer a full suite of solar services and are known for their personalized system design.
The home solar market in and around Granby, VT, is characterized by a small number of highly specialized, regional providers rather than national chains. Due to Granby's remote location and low population density, homeowners typically rely on established contractors from nearby hubs like St. Johnsbury, Littleton (NH), or larger Vermont-based companies like SunCommon that service the entire state. The competition is moderate but service quality is generally high, as surviving companies have deep expertise in handling Vermont's specific challenges, including harsh winters, complex off-grid needs, and navigating state-specific incentives like net metering and rebates. Typical pricing for a residential system is competitive with national averages, generally ranging from $15,000 to $30,000+ before federal tax credits and state incentives, with a strong focus on integrating battery storage for resilience in this rural area.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with Granby regulations and climate
Get answers to common questions about home solar services in Granby, Vermont.
While solar production is lower in winter due to snow cover and shorter days, modern systems are designed for this. Installers in our region tilt panels steeply (often 35-45 degrees) to help shed snow and maximize winter sun exposure. Importantly, Vermont's net-metering policy credits you for summer overproduction to offset winter usage, making annual energy offset very effective despite seasonal variation.
After the 30% federal tax credit, a typical Granby home system costs between $15,000-$25,000. Critically, Vermont offers additional incentives: a state tax credit of up to $1,800, and sales tax exemption on equipment. Combined, these can reduce your net cost by over 35%. You should also consult with your installer about Green Mountain Power's specific net-metering and potential rebate programs.
Yes. In Granby, you'll need a permit from the town, and your installer typically handles this. Vermont has a "Solar Siting" policy that generally supports residential solar, but if your home is in a designated historic district or has significant shading from trees, there may be additional considerations. A reputable local installer will navigate all state interconnection rules and local permitting for you.
Prioritize Vermont-based installers with extensive experience in the Northeast Kingdom's climate. Look for companies that are NABCEP-certified, have strong references from local Granby or neighboring town projects, and offer robust warranties. They should provide a detailed production estimate specific to your property's sun exposure, accounting for our tree cover and weather patterns.
For daily power, yes—the grid-connected net-metering system uses credits from sunnier months. However, standard grid-tied systems shut off during a power outage for safety. To have backup power, you must install a solar battery storage system (like a Tesla Powerwall). This is a popular add-on in Granby given rural power reliability, allowing you to use stored solar energy when the grid is down.