Do Solar Panels Work in Winter in the UK?
Yes. Solar panels work in winter in the UK. They generate electricity from daylight, not direct sunshine, so they produce power even on overcast December days. Output is lower than summer (roughly 10–20% of your annual total comes from November to January), but they still contribute meaningful energy savings year-round. A typical 4kWp system produces 3,400–4,200 kWh per year, with winter months adding steady value to your investment.
Quick Answer
Yes, solar panels work in winter in the UK. They generate electricity from daylight, not direct sunshine. A typical 4kWp system produces 55–110 kWh/month in December–January and 3,400–4,200 kWh annually. Winter output is lower but almost all of it is self-consumed at full value (~28p/kWh).
Data based on PVGIS irradiance models and MCS performance data for a south-facing 4kWp system in the UK.
Fact-checked by John Rooney, Solar Energy Editor. Editorial policy
Solar panels work in winter. Here is why.
Solar panels convert daylight into electricity using photovoltaic cells. They do not need direct sunshine or blue skies. Even on a grey, overcast UK winter day, diffuse light reaches the panels and generates power.
“The UK receives between 1,200 and 1,750 hours of sunshine per year. Even during winter months, solar irradiance levels are sufficient for meaningful electricity generation from PV systems.”
Winter output is lower than summer for obvious reasons: shorter days, a lower sun angle, and more cloud cover. But it is far from zero. A typical 4kWp system still generates 55–110 kWh per month through the darkest months of December and January.
There is also one surprising advantage of cold weather. Solar panels are actually more efficient at lower temperatures. Silicon-based panels lose roughly 0.3–0.4% efficiency for every 1 degree Celsius above 25 degrees. UK winter temperatures (typically 2–8 degrees) keep panels well within their optimal range.
Monthly output for a typical 4kWp system in the UK
This table shows expected monthly output ranges for a south-facing 4kWp solar PV system in the UK. Output varies by region, roof pitch, and shading, but these figures represent a realistic national average.
| Month | Output (kWh) | % of Annual | Season |
|---|---|---|---|
| January | 65–110 | 2–3% | Winter |
| February | 110–155 | 3–4% | Winter |
| March | 210–275 | 6–7% | Spring |
| April | 310–380 | 9–10% | Spring |
| May | 390–460 | 11–12% | Summer |
| June | 410–480 | 12–13% | Summer |
| July | 390–460 | 11–12% | Summer |
| August | 340–400 | 9–11% | Summer |
| September | 250–310 | 7–8% | Autumn |
| October | 145–200 | 4–6% | Autumn |
| November | 75–120 | 2–3% | Winter |
| December | 55–95 | 2–3% | Winter |
| Annual Total | ~3,400–4,200 | 100% |
Based on PVGIS data for a 4kWp south-facing system at 35 degree tilt in central England. Actual output varies by location (southern England produces ~10% more than Scotland), roof orientation, and shading conditions.
Why is solar panel output lower in winter?
Three main factors reduce solar output during UK winters. None of them means panels stop working entirely.
Fewer Daylight Hours
The UK gets just 7–8 hours of daylight in December compared to 16–17 hours in June. Less daylight means less time for panels to generate electricity.
Lower Sun Angle
The sun sits much lower in the sky during winter. Light hits the panels at a shallower angle, reducing the intensity of energy reaching the cells.
More Cloud Cover
UK winters are cloudier on average, which reduces direct sunlight. However, panels still generate from diffuse light that passes through clouds.
Cold = More Efficient
One winter advantage: cold temperatures actually improve panel efficiency. Panels lose 0.3–0.4% output per degree above 25 degrees Celsius. UK winter temps (2–8 degrees) keep panels in their optimal zone.
How to maximise solar panel output in winter
Keep Panels Clean
In winter there is less rain to naturally wash off dirt, bird droppings, and debris. Check panels after dry spells and clean with water if needed. Even a thin layer of grime can reduce output by 5–10%.
Check for Shading
Even leafless winter trees cast shadows from their branches. With the sun lower in the sky, shading from nearby buildings or trees can affect panels that are clear in summer. Monitor your system for unexpected dips.
Clear Snow and Frost
Heavy snow or persistent frost can occur in parts of the UK, particularly after cold snaps. Snow usually slides off angled panels, but a light brush can help if it accumulates.
Optimal Tilt Angle
The ideal tilt for winter capture is steeper: 35–40 degrees. This happens to match most UK roof pitches, so standard installations are already well-suited for winter performance.
Run Appliances During Daylight
Use timers for your washing machine, dishwasher, and tumble dryer to run between 10am and 3pm. In winter, the window of peak generation is shorter, so timing matters even more.
Monitor Your System
Use your inverter app (Huawei FusionSolar, Solis Cloud, etc.) to track daily output. If production drops unexpectedly, it could indicate a fault, shading issue, or dirty panels.
Winter self-consumption: less output, but more of it gets used
In winter, your household electricity usage goes up. You run more lights, heating controls, and appliances during the darker months. At the same time, your solar panels generate less.
This combination actually works in your favour for one key reason: almost everything your panels generate in winter gets used directly by your home. Your self-consumption rate in winter is typically 80–95%, compared to 40–60% in summer.
Self-consumed electricity is the most valuable kind. Every kWh you use directly saves you the full retail electricity rate (around 28p/kWh), whereas exported electricity earns just 4–15p/kWh via the Smart Export Guarantee (SEG). So while winter output is lower in volume, a higher proportion of it displaces expensive grid electricity.
| Season | Monthly Output | Self-Consumption Rate | Value per kWh |
|---|---|---|---|
| Winter (Nov–Feb) | 55–155 kWh | 80–95% | ~26–28p |
| Summer (May–Aug) | 340–480 kWh | 40–60% | ~18–22p |
Value per kWh is a blended rate based on self-consumption at ~28p/kWh and export via SEG at ~5p/kWh. Higher self-consumption means higher effective value.
The UK vs other European countries for solar
A common concern is that the UK is "too far north" for solar to work well. The data tells a different story. The UK's annual solar resource is comparable to Germany's, and Germany has the largest installed solar capacity in the EU.
| Country | Annual Yield (kWh/kWp) | Installed Solar Capacity | Notes |
|---|---|---|---|
| United Kingdom | 850–1,100 | ~15 GW | Growing rapidly. 0% VAT driving adoption. |
| Germany | 900–1,200 | ~82 GW | EU leader. Similar solar resource to the UK. |
| France | 1,000–1,400 | ~20 GW | Higher yield in southern regions. |
| Netherlands | 900–1,100 | ~24 GW | Flat terrain. Almost identical yield to the UK. |
Sources: PVGIS (EU Joint Research Centre), IEA PVPS. Installed capacity figures are approximate as of late 2025.
The point is clear: all of these northern European countries have massive solar industries built on a similar solar resource. If solar works in Germany and the Netherlands, it works in the UK.
The annual picture is what matters
Solar is a year-round investment, not a summer-only one. The financial case for solar panels accounts for the seasonal variation. Nobody expects panels to produce the same in December as in June.
In summer, your system produces a surplus. Excess electricity is exported to the grid, earning you 4–15p/kWh via the Smart Export Guarantee (SEG) depending on your supplier. This export income helps offset the lower output months.
In winter, your panels cover a portion of your electricity usage during the most expensive months. Electricity prices tend to be highest in winter due to increased demand. Every kWh your panels produce in winter displaces electricity you would otherwise buy at full price.
The standard 6–8 year payback period for a 4kWp system in the UK already factors in the seasonal variation. It is based on realistic annual output of 3,400–4,200 kWh, not best-case summer figures.
Annual financial summary (4kWp system)
Summer surplus
May to August generates ~1,600 kWh. Roughly 40–60% is exported, earning £60–£120 in SEG export income.
Winter contribution
November to February generates ~330–480 kWh. Most is self-consumed at full retail value (~28p/kWh), saving£90–£135.
Full year total
Annual savings of £600–£1,000 including self-consumption and SEG export income. Payback in 6–8 years.
Frequently Asked Questions About Solar Panels in Winter
Do solar panels work in winter in the UK?
Yes. Solar panels generate electricity from daylight, not direct sunshine. They work every day of the year in the UK, including overcast winter days. Output is lower in winter (roughly 10–20% of annual total comes from November to January), but they still produce meaningful electricity.
How much electricity do solar panels produce in winter?
A typical 4kWp system in the UK produces 55–110 kWh per month in December and January, rising to 110–155 kWh in February. Over the four winter months (November to February), total output is roughly 330–480 kWh. This covers a meaningful portion of your winter electricity usage.
Do solar panels work on cloudy days?
Yes. Solar panels generate electricity from diffuse light that passes through clouds, not just direct sunlight. Output on a cloudy day is roughly 10–25% of what it would be on a clear day, but production does not stop. The UK's climate is cloudy year-round, and the annual output figures (3,400–4,200 kWh for a 4kWp system) already account for this.
Should I install solar panels in winter?
Winter is actually a good time to install solar panels. Demand is lower, so installers often have shorter wait times and may offer better pricing. Your system will be up and running in time for the longer, sunnier days of spring and summer. The 0% VAT on residential solar is available year-round in 2026.
Do solar panels work in rain?
Yes. Rain does not stop solar panels from working. Panels generate electricity from light, and there is still plenty of diffuse daylight during rainy weather. In fact, rain helps by washing dirt and debris off the panels, which can slightly improve performance afterwards.
Will snow damage solar panels?
Snow does not damage solar panels. Panels are designed to withstand significant snow loads (typically rated for 5,400 Pa or more). In the UK, heavy snow is rare in most regions and usually melts quickly. Snow on panels blocks light temporarily, but it typically slides off angled panels within hours. If it accumulates, a gentle sweep with a soft brush will clear it.
Is it worth getting solar panels if I use most electricity at night?
Yes. Even if you use most electricity in the evening, solar panels still save money. During the day, excess solar electricity is exported to the grid and earns 4–15p/kWh via the Smart Export Guarantee (SEG). You can also add a battery (5–10 kWh) to store daytime solar for evening use. Additionally, using timers to shift some daytime appliances (washing machine, dishwasher) to run while the sun is up improves self-consumption.
Do solar panels produce enough in winter to be worth it?
Yes. The financial case for solar panels is based on annual output, not just winter performance. A 4kWp system saves £600–£1,000 per year across all seasons, with a payback period of 6–8 years. Winter output is lower, but the higher self-consumption rate means almost every kWh generated in winter displaces expensive grid electricity at ~28p/kWh.
Related Guides
Sources
- PVGIS (EU Joint Research Centre), Solar irradiance data for the UK: PVGIS
- Met Office, UK sunshine and weather data: metoffice.gov.uk
- MCS, Solar PV performance data: mcscertified.com
John Rooney is the founder of Solar Info and has been covering the UK solar energy market since 2023. He fact-checks all content against official MCS and Ofgem data and maintains relationships with MCS-certified installers across the UK.
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