With solar panels, the best time to use electricity is whenever your panels are generating – typically between 10am and 3pm on most days. During these hours, you’re using free solar power instead of importing from the grid at 24p per kWh or more. Understanding when to use electricity can significantly increase your self-consumption and reduce your bills, turning a 30% self-consumption rate into 50% or higher.
The calculation is simple: solar electricity you use yourself saves you the full import rate (around 24p), while solar you export typically earns only 5-15p. Every kilowatt-hour you shift from evening to midday use saves you 10-20p. Across all your flexible appliances and throughout the year, this adds up to hundreds of pounds in additional savings. Our export vs self-consumption calculator shows exactly how much each shifted kWh is worth for your tariff.
This guide covers the optimal times for electricity use throughout the day and year, how different tariffs affect timing, which appliances to prioritise for shifting, and how to build habits that maximise the value of your solar investment.
Best Times Overview
The windows that matter most during a typical UK day
| Best time (solar) | 10am-3pm |
| Good time (solar) | 9am-4pm |
| Acceptable (some solar) | 8am-5pm summer |
| Worst time (peak rates) | 4pm-7pm |
| Alternative good time | 12am-6am (cheap rates) |
Daily Electricity Timing
How each block of the day ranks for solar households
Time Periods Ranked
| Time | Solar | Grid Cost | Best Use |
|---|---|---|---|
| 10am-3pm | Peak generation | Avoided | All heavy appliances |
| 9-10am / 3-4pm | Good generation | Avoided | Medium appliances |
| 12am-6am | None | Cheap (ToU) | EV/battery charging |
| 7-9am | Low/rising | Standard | Essential only |
| 4-7pm | Low/falling | Peak (ToU) | Avoid if possible |
| 7pm-12am | None | Standard | Battery or essential |
Value by Time Period
| Time | Electricity Cost | Strategy |
|---|---|---|
| Peak solar (10am-3pm) | Free (self-consumption) | Use everything possible |
| Off-peak overnight | 7-12p/kWh | Charge EV/battery |
| Standard daytime | 20-24p/kWh | Use solar or battery |
| Peak evening | 30-45p/kWh | Use battery; avoid grid |
Priority Order for Usage
| Priority | Time | Why |
|---|---|---|
| 1st | Peak solar hours | Free electricity |
| 2nd | Overnight cheap rates | 7-12p vs 24p |
| 3rd | Morning/afternoon solar | Still generating |
| 4th | Standard rate times | Acceptable cost |
| Avoid | Peak 4-7pm | Most expensive |
Solar Generation Patterns
What your array is actually doing hour by hour
Typical Daily Pattern
| Time | Generation Level | % of Peak |
|---|---|---|
| 6am | Minimal | 5-10% |
| 8am | Rising | 30-40% |
| 10am | Strong | 70-80% |
| 12pm | Peak | 100% |
| 2pm | Near peak | 90-100% |
| 4pm | Declining | 60-70% |
| 6pm | Low | 20-30% |
| 8pm | Minimal | 5-10% |
Output by System Size (Peak)
| System | Peak Output | Midday Typical |
|---|---|---|
| 2kW | 2kW | 1.4-1.8kW |
| 3kW | 3kW | 2.1-2.7kW |
| 4kW | 4kW | 2.8-3.6kW |
| 5kW | 5kW | 3.5-4.5kW |
| 6kW | 6kW | 4.2-5.4kW |
Factors Affecting Generation
| Factor | Impact |
|---|---|
| Cloud cover | 50-90% reduction |
| Overcast | 70-80% reduction |
| Light cloud | 20-40% reduction |
| Panel orientation | South best; E/W shifts peak time |
| Shading | Variable reduction |
| Temperature | Hot = slightly lower output |
If trees, chimneys or neighbouring roofs partially shade your array, our shade impact calculator shows how that changes the shape of your generation curve and which hours still deliver useful power.
Seasonal Variations
The solar window widens and narrows across the year
Generation by Season
| Season | Daily Output (4kW) | Good Hours |
|---|---|---|
| Summer | 15-20 kWh | 7am-8pm |
| Spring | 10-15 kWh | 8am-6pm |
| Autumn | 8-12 kWh | 9am-5pm |
| Winter | 3-8 kWh | 10am-3pm |
Best Usage Window by Season
| Season | Primary Window | Secondary Window |
|---|---|---|
| Summer | 9am-5pm | 7am-8pm |
| Spring | 10am-4pm | 9am-5pm |
| Autumn | 10am-3pm | 9am-4pm |
| Winter | 11am-2pm | 10am-3pm |
Winter Strategy
| Challenge | Approach |
|---|---|
| Short solar window | Prioritise highest-value loads |
| Low generation | Match smaller appliances |
| More cloudy days | Be flexible; use when available |
| Higher demand | Rely more on overnight rates |
Summer Strategy
| Opportunity | Approach |
|---|---|
| Long solar day | More flexibility; spread loads |
| Excess generation | Run everything on solar |
| Lower demand | High self-consumption possible |
| Holiday periods | Schedule while home |
Appliance Timing Guide
What to shift for the biggest bill reduction
High Energy Appliances
| Appliance | Consumption | Best Time |
|---|---|---|
| Tumble dryer | 2-5 kWh | 11am-2pm |
| EV charging | 7-22 kW | Solar peak OR overnight |
| Immersion heater | 3 kW | 10am-3pm (diverter) |
| Heat pump | 2-8 kW | Solar hours + cheap overnight |
| Storage heaters | 1-3 kW each | Overnight cheap rates |
For EVs, pairing solar-hours daytime charging with an overnight top-up gives the lowest effective rate. Our solar EV charging guide covers diverter setup and tariff pairing in detail.
Medium Energy Appliances
| Appliance | Consumption | Best Time |
|---|---|---|
| Washing machine | 1-2 kWh | 10am-2pm |
| Dishwasher | 1-2 kWh | 10am-2pm |
| Oven | 2-3 kWh | Lunch better than dinner |
| Vacuum cleaner | 1-2 kWh/hour | Solar hours |
| Iron | 1-2 kWh | Solar hours |
Low Energy (Flexible)
| Appliance | Consumption | Timing Priority |
|---|---|---|
| Laptop charging | 0.05-0.1 kWh | Solar if convenient |
| Phone charging | 0.01-0.02 kWh | Anytime (negligible) |
| LED lights | 0.01 kWh/hour | When needed |
| TV | 0.05-0.2 kWh/hour | When wanted |
Always-On (Can’t Shift)
| Appliance | Daily Consumption | Notes |
|---|---|---|
| Fridge/freezer | 1-2 kWh | Must run continuously |
| Router | 0.2-0.3 kWh | Always on |
| Standby loads | 0.5-2 kWh | Minimise where possible |
Time-of-Use Tariff Integration
Matching your tariff structure to your solar pattern
Standard Flat Rate Strategy
| Time | Rate | Best Action |
|---|---|---|
| All day | ~24p/kWh | Maximise solar hours use |
| Solar hours | Free | Run all flexible loads |
| Evening | 24p/kWh | Use battery if available |
Economy 7 Strategy
| Time | Rate | Best Action |
|---|---|---|
| Night (7 hours) | ~10-12p/kWh | Charge EV/battery; storage heaters |
| Day | ~28-30p/kWh | Use solar; avoid grid |
| Solar hours | Free | Best time |
Octopus Go Strategy
| Time | Rate | Best Action |
|---|---|---|
| 12:30-4:30am | ~7p/kWh | Charge EV; charge battery |
| Rest of day | ~24p/kWh | Use solar; use battery |
| Solar hours | Free | Run appliances |
Octopus Go offers the UK’s cheapest widely available night rate and is the default choice for EV drivers who also want solar self-consumption by day.
Octopus Flux Strategy
| Time | Import Rate | Export Rate | Best Action |
|---|---|---|---|
| 2am-5am | ~15p/kWh | – | Charge battery |
| 5am-4pm | ~25p/kWh | ~15p/kWh | Use solar; store excess |
| 4pm-7pm | ~35p/kWh | ~25p/kWh | Export battery; avoid import |
| 7pm-2am | ~25p/kWh | ~15p/kWh | Use battery |
Octopus Flux is purpose-built for solar-plus-battery homes – the 4-7pm premium export rate rewards discharging the battery to the grid during the evening peak.
Octopus Agile Strategy
| Price | Action |
|---|---|
| Negative/0p | Charge everything; run all loads |
| 0-10p/kWh | Charge battery; heavy loads OK |
| 10-20p/kWh | Use solar; some battery charging |
| 20-30p/kWh | Use solar and battery only |
| 30p+/kWh | Export; avoid import |
Agile Octopus prices change every 30 minutes and occasionally go negative, rewarding anyone who can automate load-shifting against the half-hourly wholesale market.
Battery Storage Impact
Storage fundamentally changes what “best time” means
How Batteries Change Timing
| Without Battery | With Battery |
|---|---|
| Must use solar immediately | Can store for later |
| Evening = grid import | Evening = battery |
| Peak hours expensive | Peak hours covered |
| Export excess | Store excess |
Battery Strategy by Time
| Time | Battery Action |
|---|---|
| Overnight cheap | Charge from grid |
| Morning | Use overnight stored power |
| Solar peak | Use solar; recharge battery |
| Afternoon | Continue solar; finish charging |
| Evening peak (4-7pm) | Discharge battery |
| Evening (7pm-12am) | Continue battery use |
With vs Without Battery
| Aspect | No Battery | With Battery |
|---|---|---|
| Self-consumption | 30-50% | 70-90% |
| Timing flexibility | Limited | High |
| Evening coverage | Grid only | Battery powered |
| Peak avoidance | Difficult | Easy |
If you’re sizing a battery, our best solar batteries guide covers the leading UK brands; to add one to an existing array, see our battery retrofit guide.
Daily Schedule Templates
Worked examples for different household patterns
Solar Only (No Battery)
| Time | Activity | Power Source |
|---|---|---|
| 7am | Wake up; essentials only | Grid (minimal) |
| 8am | Leave for work; set delays | – |
| 10am | Washing machine starts | Solar |
| 11am | Dishwasher runs | Solar |
| 12pm | Tumble dryer runs | Solar |
| 6pm | Home; cooking | Grid |
| Evening | TV; lights; essentials | Grid |
Solar + Battery
| Time | Activity | Power Source |
|---|---|---|
| 12am-5am | Battery charges (cheap rate) | Grid |
| 7am | Morning routine | Battery |
| 10am-3pm | Appliances; battery recharges | Solar |
| 4-7pm | Peak period | Battery |
| 7pm-12am | Evening usage | Battery |
Work From Home
| Time | Activity | Power Source |
|---|---|---|
| 9am | Start work; put on wash | Solar |
| 10am | Transfer to dryer | Solar |
| 11am | Run dishwasher | Solar |
| 12pm | Lunch; microwave/cooking | Solar |
| 2pm | Vacuum if needed | Solar |
| 5pm | Finish work | Solar/battery |
Weekend Optimisation
| Time | Activity | Power Source |
|---|---|---|
| 9am | Leisurely breakfast | Rising solar |
| 10am | Start all laundry | Solar |
| 11am | Batch cooking | Solar |
| 12pm | Tumble drying | Solar |
| 1pm | EV top-up charging | Solar |
| 2pm | Cleaning; vacuuming | Solar |
| 3pm | Iron if needed | Solar |
Weather-Based Adjustments
Adapting the plan to the sky you actually get
Sunny Day
| Opportunity | Action |
|---|---|
| Strong generation | Run all possible loads |
| Excess available | Full battery charge |
| Long window | Stagger appliances for coverage |
| High export potential | Use first; export remainder |
Cloudy Day
| Challenge | Adjustment |
|---|---|
| Reduced generation | Prioritise essential loads |
| Variable output | Lower power appliances |
| May not cover loads | Accept some grid top-up |
| Battery may not fill | Use overnight charging backup |
Mixed Conditions
| Situation | Strategy |
|---|---|
| Morning sun, afternoon cloud | Front-load appliances |
| Morning cloud, afternoon sun | Delay start times |
| Intermittent cloud | Flexible; watch and respond |
| Brief sunny spells | Quick charges; short cycles |
Monitoring and Adjustment
Tracking your self-consumption and finding easy wins
What to Monitor
| Metric | What It Shows | Tool |
|---|---|---|
| Current generation | Real-time output | Inverter app |
| Self-consumption % | How much you use | Inverter app |
| Export amount | Power sent to grid | Smart meter |
| Import by time | When you buy power | Supplier app |
| Battery state | Charge level | Battery app |
Self-Consumption Targets
| Setup | Baseline | Optimised |
|---|---|---|
| Solar only | 25-35% | 45-55% |
| Solar + shifting | 35-45% | 50-65% |
| Solar + battery | 60-70% | 80-90% |
Identifying Improvements
| Sign | Problem | Solution |
|---|---|---|
| High midday export | Not using solar | Shift more loads |
| High evening import | Missing solar window | Run earlier; add battery |
| Peak rate imports | 4-7pm usage | Battery or shift loads |
| Low self-consumption | Lifestyle mismatch | Automation; timers |
If the problem is lifestyle mismatch, automating the appliances that matter is faster than changing habits – our solar appliance automation guide walks through the dispatcher apps and smart plugs that do the scheduling for you.
Practical Tips
Turning theory into routine
Building Habits
| Habit | Implementation |
|---|---|
| Morning appliance prep | Load machines; set timers |
| Midday check | Verify loads running on solar |
| Evening awareness | Avoid heavy loads 4-7pm |
| Weekend batching | Do heavy loads when home |
Quick Wins
| Action | Impact | Effort |
|---|---|---|
| Set dishwasher delay | £30-50/year | 1 minute |
| Set washing delay | £50-80/year | 1 minute |
| Dry midday | £80-150/year | Timing only |
| EV solar charging | £100-300/year | Settings change |
Common Mistakes
| Mistake | Impact | Fix |
|---|---|---|
| Running appliances evening | Miss free solar | Shift to midday |
| All appliances at once | Exceed solar; import | Stagger loads |
| Ignoring forecast | Plan for cloudy day | Check weather |
| Forgetting timers | Appliances don’t run | Make it routine |
Summary
What to take away and apply from tomorrow
| Aspect | Key Points |
|---|---|
| Best time overall | 10am-3pm (peak solar) |
| Second best | Overnight cheap rates |
| Worst time | 4-7pm (peak rates) |
| Key appliances to shift | Dryer; washer; dishwasher; EV |
| Savings potential | £200-£400+ annually |
| Self-consumption boost | +15-25% with shifting |
The best time to use electricity with solar panels is during peak generation hours – typically 10am to 3pm when your panels are producing most power. Every kilowatt-hour used during this window is free, compared to 24p or more from the grid. Shifting your dishwasher, washing machine, and tumble dryer to these hours can save £150-£300 per year with no cost beyond changing when you press the button.
The second-best time is overnight on cheap rate tariffs if you have one. Rates of 7-12p per kWh for EV charging or battery storage are far cheaper than standard rates, and this power can cover your morning needs before solar kicks in. The combination of overnight charging and midday solar use can cover most of your daily electricity needs at minimal cost.
The worst time is the evening peak between 4pm and 7pm, when time-of-use tariffs charge 30-45p per kWh and your solar panels are producing little. With a battery, you can avoid this peak entirely by using stored solar or overnight-charged power. Without a battery, minimising usage during this window and shifting what you can to solar hours makes a significant difference.
Build habits around solar timing: load appliances in the morning and set delay timers, batch weekend tasks during solar hours, and check your monitoring app occasionally to see how well you’re capturing your generation. These simple changes transform a 30% self-consumption rate into 50% or higher, significantly improving the financial return from your solar investment.
See How Much Timing Could Save You
Use our solar battery savings calculator to model how shifting loads – and optionally adding storage – affects your self-consumption percentage and annual bill.
Already weighing up storage? Our solar battery costs guide breaks down payback periods for typical UK homes.
