Ask three different solar vendors in Delhi how much you'll save with a rooftop system, and you'll likely get three different numbers — usually all on the optimistic side. That's not necessarily dishonesty; it's because most savings estimates and even many online solar calculator tools are built on a flat average rate per unit, while Delhi's actual billing structure is far more layered than that.
Delhi runs on a slab-based, telescopic tariff system through BSES Rajdhani, BSES Yamuna, and Tata Power-DDL, meaning the rate you pay per unit increases as your monthly consumption climbs. A solar system doesn't just reduce your bill by a fixed amount; it reduces it by knocking out your most expensive units first. A well-designed solar calculator takes these tariff slabs into account, giving you a far more realistic estimate of your potential savings. Calculate this correctly, and your real savings are usually higher than a generic online estimate. Calculate it carelessly, and you'll either overestimate your payback or underestimate just how much solar can actually do for your specific bill.
This guide walks through the exact calculation — slab by slab — so you know precisely what to expect before you sign anything.
Why Most Online Solar Savings Estimates Are Wrong
Most solar calculators — and frankly, most sales pitches — multiply your estimated monthly units generated by a single "average" rate, often somewhere around ₹6-7 per unit. The problem is that Delhi's actual billing doesn't work that way.
Under the DERC-approved slab structure, you pay a different rate for different bands of consumption within the same month:
- The first 200 units are free under the Delhi government's domestic subsidy
- 201–400 units are billed at a 50% discounted rate
- 401–800 units jump to a noticeably higher slab rate
- Units beyond 800 attract the highest slab rate of all
This is called a telescopic tariff — each slab only charges its own rate for the units that fall within it, but as your total consumption rises, more and more of your bill shifts into the expensive upper slabs. Solar doesn't reduce your consumption evenly across all slabs; it eliminates units starting from the top, where the rate is highest. This is precisely why a flat-rate calculation almost always misrepresents your true savings.
Step 1: Know Delhi's Actual Slab-Wise Tariff
Before calculating anything, you need your real per-unit rates. Here is the current DERC-approved domestic slab structure applicable across BSES Rajdhani, BSES Yamuna, and Tata Power-DDL (all three DISCOMs follow the same base tariff order, only the PPAC surcharge varies slightly):
| Consumption Slab | Rate per Unit | Subsidy Status |
|---|---|---|
| 0–200 units | ₹0 (fully subsidized) | Zero Bill Scheme |
| 201–400 units | ₹4.50/unit | 50% government discount |
| 401–800 units | ₹6.50/unit | Full rate, no subsidy |
| 801–1200 units | ₹7.00/unit | Full rate |
| Above 1200 units | ₹8.00/unit | Highest slab |
Step 2: Calculate Your System's Real Unit Generation
Your solar savings depend entirely on how many units your specific system actually generates — not the nameplate capacity alone. Delhi gets approximately 4.5–5.5 peak sun hours per day on average across the year, accounting for monsoon and winter haze months.
= Units Generated Per Day (kWh)
The "Performance Ratio" accounts for real-world losses — wiring resistance, inverter efficiency, dust on panels, and temperature derating — and typically falls between 0.75 and 0.80 for a well-maintained system in Delhi's climate.
| System Size | Daily Generation | Monthly Generation |
|---|---|---|
| 3 kW | 10–13 units | 300–390 units |
| 5 kW | 17–22 units | 510–660 units |
| 8 kW | 27–35 units | 810–1,050 units |
| 10 kW | 34–44 units | 1,020–1,320 units |
Step 3: Apply the Slab-Wise "Avoided Cost" Method
This is the step almost every quick calculator skips — and it's the one that matters most. Instead of multiplying your generated units by one flat rate, you need to identify which slab those units would otherwise have fallen into, because that's the rate you're actually avoiding.
In practice, this means: if your household consumes 1,000 units a month without solar, and your system generates 500 of those units, your solar isn't saving you a flat ₹6/unit — it's eliminating the most expensive 500 units, which in this case would be everything above the 500-unit mark, taxed at the higher 801+ and 1200+ slab rates. Your real savings per unit generated will be noticeably higher than the "average" rate quoted by most calculators.
Step 4: Factor In Net Metering Export Credits
If your system generates more electricity than you consume during the day — common for daytime-heavy households or those with smaller families — the surplus exports back to the grid through your net meter. Both BSES and TPDDL support net metering for rooftop solar.
- Exported units are credited against your future consumption, effectively at the rate you'd otherwise pay
- Unused annual credits beyond a certain limit may be settled at a DERC-defined feed-in rate rather than carried forward indefinitely
- For most residential systems sized appropriately to household consumption, the bulk of generation is self-consumed directly rather than exported — direct self-consumption is always more valuable than export credit
This is why correctly sizing your system to your actual consumption pattern (not just your roof space) materially affects your real savings calculation.
Step 5: Subtract Real-World Losses
A theoretical calculation on paper rarely matches what you see on your meter after month one. Build in these realistic deductions before finalizing your savings estimate:
🌫️ Seasonal Variation
Generation in Delhi's peak summer months (April–June) can be 20–25% higher than during the foggy winter months (December–January) or the monsoon season. Use an annual average, not a single best-case month.
🧹 Panel Degradation and Soiling
Panels lose roughly 0.5–0.8% efficiency per year due to natural degradation. Dust accumulation in Delhi's air quality conditions can reduce output by another 3–5% if panels aren't cleaned regularly — factor in periodic cleaning into your maintenance routine.
⚡ Inverter and Wiring Losses
Even high-quality inverters carry a small conversion loss (typically 2–4%), and cable runs over longer distances add marginal resistive losses. These are already baked into the 0.75–0.80 performance ratio used in Step 2 — but it's worth confirming your installer is using a realistic figure, not an inflated "best case" number.
Full Worked Example: 5kW System in Delhi
Let's put the entire method together using a realistic household scenario.
📊 Household Profile
Monthly consumption without solar: 900 units
System installed: 5 kW on-grid
Average monthly generation: ~600 units
| Slab | Units in Slab (No Solar) | Rate | Cost Without Solar |
|---|---|---|---|
| 0–200 | 200 | ₹0 | ₹0 |
| 201–400 | 200 | ₹4.50 | ₹900 |
| 401–800 | 400 | ₹6.50 | ₹2,600 |
| 801–900 | 100 | ₹7.00 | ₹700 |
| Total (900 units) | — | — | ₹4,200 + PPAC/duty |
Now, with 600 units of solar generation offsetting the household's grid draw, the household's net grid consumption effectively drops to 300 units — but crucially, solar removes units from the top of the slab first, eliminating the entire 801–900 band and a large chunk of the 401–800 band.
| Slab | Units Remaining (With Solar) | Rate | Cost With Solar |
|---|---|---|---|
| 0–200 | 200 | ₹0 | ₹0 |
| 201–300 | 100 | ₹4.50 | ₹450 |
| Total (300 net units) | — | — | ₹450 + PPAC/duty |
💰 Real Monthly Savings
Bill without solar (energy charges only): ~₹4,200
Bill with solar (energy charges only): ~₹450
Approximate monthly savings: ₹3,750 — note this is higher than a flat-rate calculation (600 units × ₹6 average = ₹3,600) would suggest, because solar eliminated the most expensive slab units first.
Calculating Your True Payback Period
Once you have an accurate monthly savings figure, payback period is straightforward:
Using the example above: ₹3,750/month in savings works out to roughly ₹45,000 per year. For a 5kW on-grid system costing approximately ₹2,80,000 before subsidy, and around ₹2,20,000 after the central PM Surya Ghar subsidy, the payback period comes to roughly 4.8–5 years — comfortably within the 4–7 year range typical for well-sized Delhi installations.
Common Mistakes That Inflate (or Deflate) Savings Estimates
- Using a flat average rate instead of slab-wise avoided cost — this misrepresents savings in either direction depending on your consumption level
- Ignoring PPAC surcharges — base slab rates alone understate your actual effective per-unit cost significantly
- Assuming best-case sun hours year-round — using peak summer generation figures for an annual estimate overstates real savings
- Oversizing the system relative to consumption — excess export credits are generally less valuable than direct self-consumption savings
- Forgetting panel degradation — a system's output in year 15 is lower than in year 1; long-term savings projections should account for this gradual decline
- Skipping the fixed and PPAC components entirely when comparing "before vs after" bills, leading to confusion when the bill doesn't drop by the exact calculated amount
Why Choose Thermosun for an Accurate Solar Savings Estimate
Generic online calculators give you a ballpark. At Thermosun, a leading Best Solar Company in Delhi, we calculate your savings based on your actual electricity bill, your roof's real sun exposure, and Delhi's current slab-wise tariff — not a one-size-fits-all assumption.
📋 Bill-Based Savings Calculation
We analyze your actual BSES/TPDDL bill slab-by-slab to project your true avoided cost — not a flat per-unit guess.
🏠 Site Survey Before Any Quote
Real shadow analysis and roof assessment, so your generation estimate reflects your actual property — not a generic average.
📄 Subsidy & Net Metering Handled
Full PM Surya Ghar subsidy documentation and DISCOM net metering coordination managed end-to-end on your behalf.
🔧 Tier-1 Components Only
Installations using trusted panel and inverter brands, sized correctly to your consumption pattern for maximum real-world savings.
📍 Local Delhi NCR Expertise
Years of hands-on installation experience across Delhi's residential and commercial properties, with fast local after-sales support.
🤝 Transparent, Itemized Quotes
Every quote breaks down panels, inverter, structure, and labour separately — no bundled numbers, no surprises later.