Skylight Upgrade Savings Calculator

Enter Project Details

Skylight quantity

Count of skylights included in the upgrade.

Area per skylight (m²)

Used for HVAC estimates when enabled.

Daylight hours per day

Average hours you rely on daylight indoors.

Baseline daytime lighting (watts)

Total watts normally on during daylight hours.

Lighting reduction from upgrade (%)

Expected reduction using better daylight distribution.

Controls gain (dimming/occupancy) (%)

Extra savings from automatic controls.

Electricity rate ($/kWh)

Used for lighting and cooling costs.

Heating fuel

Choose how heating costs are billed.

Heating rate ($/kWh equivalent)

Used only when heating fuel is not electric.

HVAC modeling method

Pick estimate for quick projections, manual for audits.

Manual cooling savings (kWh/yr)

Used only in manual method.

Manual heating savings (kWh/yr)

Positive saves energy; negative adds energy.

Old U-value (W/m²K)

Higher means more heat loss.

New U-value (W/m²K)

Lower improves insulation and comfort.

Heating degree days (°C·days)

Annual HDD for your location.

Old SHGC

Higher allows more solar heat gain.

New SHGC

Lower often reduces cooling load.

Annual solar (kWh/m²·yr)

Site estimate for roof-facing area.

Cooling COP

Higher COP means less electricity used.

Heating efficiency (fraction)

Gas furnace example: 0.90. Electric: 1.00.

Equipment cost ($)

Installation cost ($)

Rebates / grants ($)

Tax credit rate (%)

Tax credit cap ($)

Annual maintenance ($/yr)

Analysis period (years)

Discount rate (%)

Emission factor (kg CO₂/kWh)

Used for the electric portion of savings.

Reset

Formula used

Baseline lighting energy: baseline_watts × daylight_hours × 365 ÷ 1000
Lighting saved: baseline_kWh × (reduction% × (1 + controls_gain%))
Heating change (estimate): area × (U_old − U_new) × HDD × 24 ÷ 1000 ÷ heating_eff
Cooling change (estimate): area × (SHGC_old − SHGC_new) × annual_solar ÷ COP
Net annual savings: (lighting + heating + cooling $ savings) − maintenance
NPV: −upfront + Σ(net_savings ÷ (1+discount)^t)

These are planning-grade estimates. Use audit data for final decisions.

How to use this calculator

Enter skylight count, area, and daylight hours.
Add your baseline daytime lighting watts.
Set expected lighting reduction and controls gain.
Choose HVAC method: estimate or manual kWh.
Enter costs, incentives, and financial assumptions.
Press Submit to see savings above the form.

Download results using the CSV or PDF buttons in the summary.

Example data table

Scenario	Skylights	Watts	Reduction	Rate	Upfront	Net Savings	Payback
Baseline	2 × 0.80 m²	300	35%	$0.18	$1,450	$210 / yr	6.90 yrs
High daylight	3 × 0.90 m²	420	40%	$0.20	$2,100	$420 / yr	5.00 yrs
Low cost retrofit	1 × 0.70 m²	180	30%	$0.16	$650	$120 / yr	5.42 yrs

Examples are illustrative and may not match your climate, tariffs, or product specs.

Notes and assumptions

Manual HVAC kWh values can be negative if the upgrade increases energy use.
Estimated HVAC savings are simplified and intended for quick comparisons.
Tax credits vary by program and eligibility. Enter values you can verify.
NPV and IRR assume the same net savings each year.

Daylighting and lighting load

Upgraded skylights increase usable natural light, letting fixtures stay dimmed or off during peak daytime hours. This calculator converts your baseline daytime wattage and daylight hours into annual kilowatt-hours, then applies an expected reduction percentage and an optional controls gain to reflect dimming sensors and schedules.

Comfort and HVAC interactions

Glazing can change both heat loss and solar gain. For heating, the tool estimates conduction savings from the difference between old and new U-values, scaled by skylight area and heating degree days. For cooling, it estimates reduced solar load from the change in SHGC and a site solar factor, then divides by the cooling COP to convert thermal load to electric use.

Cost inputs that matter

Energy savings are only part of project value. Enter equipment and installation costs separately so you can compare product choices and labor scenarios. Rebates reduce cost directly, while tax credits are calculated as a percentage of eligible costs with an optional cap. Annual maintenance is subtracted from savings to keep the net figure realistic.

Interpreting payback and NPV

Simple payback divides net upfront cost by annual net savings and is useful for quick screening, but it ignores time value. NPV discounts each year’s net savings using your selected discount rate across the analysis period. A positive NPV indicates the upgrade returns more value than your assumed alternative use of funds.

Using results for decisions

Use the component breakdown to sanity-check assumptions: lighting, heating, and cooling should align with your building and climate. If you have measured HVAC impacts, switch to manual kWh entries for more reliable totals. Compare scenarios by adjusting daylight hours, tariffs, and incentive levels, then export CSV or PDF for stakeholders. Consider running a conservative case with smaller reductions and higher maintenance, and an optimistic case with stronger controls. The gap between those cases shows risk. When payback is long, focus on NPV, comfort, and quality benefits that are not captured in bills.

FAQs

How should I estimate the lighting reduction percentage?

Start with a walkthrough of daytime spaces. Compare current fixture usage to expected daylight coverage after the upgrade. Many projects begin with 20–40% reduction, then refine using light meters or sensor trend data.

What if the skylight upgrade increases heating demand?

That can happen if solar gain drops more than heat-loss improvements. Enter negative heating savings in manual mode or adjust U-value and SHGC inputs to match the selected glazing and shading strategy.

Which HVAC method should I use: estimate or manual?

Use estimate for early planning when you only know glazing performance and climate data. Use manual when you have audit results, utility analysis, or measured HVAC kWh impacts from similar installations.

How are rebates and tax credits applied?

Rebates reduce the upfront cost directly. Tax credits are calculated as a percentage of eligible equipment and installation costs, limited by the cap you enter, then subtracted from the remaining cost.

Why can NPV be positive while payback looks long?

NPV includes the time value of money and counts all savings across the full analysis period. A project can recover slowly but still generate strong discounted value over 10–20 years.

What does the CO2 avoided number represent?

It estimates emissions avoided from the electricity portion of savings using your emission factor. If heating uses gas or another fuel, those emissions are not included unless you convert them into kWh-equivalent separately.