Is solar worth it in South Carolina in 2026?
Solar economics in South Carolina come down to three local factors: how much you pay for grid electricity, how much a rooftop system produces here, and how your utility credits the energy you send back. Residential electricity in South Carolina runs around 17.1¢/kWh, which is close to the national average of about 16.5¢/kWh. With the federal residential clean energy credit no longer available for systems placed in service after December 31, 2025, the math depends more than ever on these local numbers.
Verdict
Weak
Estimated payback around 15.6 years for a typical home
Under representative assumptions, a system in South Carolina takes roughly 15.6 years to pay back. That's on the longer side, so solar here is more sensitive to rising electricity rates, falling install prices, and any local incentives. Model your own numbers before committing.
Electricity price
17.1¢/kWh
12-mo avg 15.5¢/kWh
Solar production
1,400 kWh/kW
8,400 kWh/yr for 6 kW
What changed in 2026 for South Carolina
Through 2025, a 30% federal tax credit covered a large share of a home solar system's cost. That credit is gone for new post-2025 installations. In South Carolina, that means the payback period is driven by your electricity rate, local production, install price, and your utility's export credit — not a federal subsidy. It does not automatically mean solar stops making sense here, but it raises the bar.
Electricity prices in South Carolina
South Carolina homeowners pay about 17.1¢/kWh for residential electricity (12-month average around 15.5¢/kWh). Rates near the national average put the outcome squarely on production and install price.
Solar production estimate in South Carolina
A typical fixed rooftop system in South Carolina produces roughly 1,400 kWh per kilowatt of panels each year — about 8,400 kWh annually for a common 6 kW system. That is a middle-of-the-road resource, typical for much of the country.
Good solar resource with a growing residential market. Modeled for a fixed roof mount near Columbia at a 30° tilt.
As a Southeast state, South Carolina shares the Southeast's long cooling season and generally good sun, paired with electricity prices that vary widely by utility. Even so, solar economics are ultimately hyper-local: two neighbors with identical roofs can land on different answers depending on their utility, their specific rate plan, and how much power they use during daylight hours. Treat the state-level figures on this page as a starting point, then refine them with your own numbers.
What a solar system costs in South Carolina
To put real numbers on it: a representative South Carolina home uses roughly 10,800 kWh a year, and offsetting about 90% of that would take a system near 6.9 kW. At the state's default $3,000 per kilowatt (3.00 per watt), that works out to roughly $20,829 before any state or utility incentives. Because there is no federal residential credit in 2026, that full amount is what you would finance or pay out of pocket — which is exactly why the local electricity rate and export credit now carry so much weight. Sizing the system closer to your own daytime usage, rather than maxing out the roof, can lower that upfront figure and, in South Carolina, sometimes improves the return on each dollar spent.
Net metering and export credit in South Carolina
South Carolina's export policy is currently summarized as "Modified net billing." South Carolina moved to a solar-choice net-billing tariff. Because export credit is below full retail, self-consumption and battery storage have a bigger effect on savings. Verify the exact export rate with your utility before deciding.
Adding a home battery changes the picture in South Carolina. Without storage, a typical household consumes only about 45% of what its panels make and exports the rest; with a battery, self-use rises to roughly 70%. Because South Carolina credits exported energy below full retail, keeping more of your own solar behind the meter with a battery can meaningfully lift your savings. The trade-off is the added hardware cost, which has to earn its keep over the system's life. Model both scenarios in the calculator by toggling the battery option to see how much it moves your specific numbers.
Is solar right for your South Carolina home?
So who does solar actually suit in South Carolina today? The strongest candidates own their home and roof, expect to stay at least 16 years, have a sunny and largely unshaded roof with room for panels, and pay for a meaningful amount of electricity each month. With South Carolina's near-average rates, your own usage and install price become the deciding factors. If your bill is small, your roof is shaded or complicated, or you might move within a few years, the case is weaker now that the federal credit has ended. The only reliable way to know is to run your real bill and an actual installer quote through the calculator rather than trusting a national rule of thumb.
A closer look at South Carolina
Why homeowners are asking this in 2026
With the 30% federal credit gone, South Carolina homeowners who were on the fence are recalculating. The state's near-average electricity prices and middling solar resource are now the deciding factors.
What can make solar work here even without the federal credit
Competitive install pricing (aim for the low end of $2.40–$3.80/W), a favorable export rate, and sizing the system to your own daytime use all improve the outcome.
What can make solar risky here
Below-retail export credit reduces the value of energy you send back. Overpaying per watt, an aggressive lease/PPA escalator, or an oversized system can all erase the savings.
Best calculator settings to start with
Start with your real bill, a "good" roof, $3,000/kW install cost, and the "Modified net billing" export setting, then adjust to your quotes.
Buying vs leasing solar in South Carolina
Whether you buy with cash, finance with a loan, or sign a lease or PPA changes who owns the system, who claims incentives, and who handles maintenance. In South Carolina, run your specific quotes through the comparison tool before signing anything.
Best cities to start with in South Carolina
Our South Carolina model uses Columbia as a representative location. Solar output is fairly uniform within a state, so the biggest differences come from your utility and roof — not your city. Use your own address's sun exposure and your utility's export rate for the most accurate result.
Assumptions
These are the default inputs behind the estimate. Change them in the calculator to match your home.
- Representative 900 kWh/month household consumption used for the state-level estimate.
- Installed cost of $3,000 per kW (3.00/watt) before any incentives.
- Federal residential tax credit set to 0% for post-2025 installations.
- Export credit modeled from the "Modified net billing" policy status; verify your utility's actual rate.
- Electricity prices escalate 3.5%/year and panels degrade 0.5%/year by default.
Sources & last updated
Current estimateLast updated July 7, 2026.
- IRS — Residential Clean Energy CreditFederal residential credit not available for property placed in service after Dec 31, 2025.
- EIA — Residential electricity price (retail-sales, RES)Fetched July 7, 2026
- Fallback estimate (representative, not live)
- DSIRE — South Carolina incentivesVerify current state and utility incentives.
Data notes
- Solar production is a fallback estimate, not live PVWatts data.