Operational Carbon Calculator for Construction

Calculator inputs

Enter annual activity data and emission factors. Use defaults as a starting point.

Project basics

Floor area (m²)

Used for intensity calculations.

Analysis period (years)

Lifetime operational carbon over this period.

Use projection (rates)

Apply efficiency and decarbonization rates

If unchecked, lifetime = annual × years.

Annual activity data

Electricity (kWh/yr)

Purchased grid electricity before onsite offset.

District energy (kWh/yr)

Heat or cooling from a district network.

Natural gas (kWh/yr)

Use energy content consistent with your factor.

Diesel (L/yr)

Generators, backup sets, or site equipment.

LPG (kg/yr)

Propane/butane consumption by mass.

Water (m³/yr)

Supply and treatment emissions depend on utility.

Refrigerant leakage (kg/yr)

Annual leakage or servicing losses.

Refrigerant GWP (kgCO2e/kg)

Use 100-year GWP for your refrigerant type.

Onsite renewables (optional)

Renewable generation (kWh/yr)

Offsets electricity up to annual consumption.

Export credit

Apply credit for exported renewable energy

Only use if your method allows export credit.

Export credit factor (kgCO2e/kWh)

Often set equal to grid electricity factor.

Emission factors

Electricity factor (kgCO2e/kWh)

District factor (kgCO2e/kWh)

Natural gas factor (kgCO2e/kWh)

Diesel factor (kgCO2e/L)

LPG factor (kgCO2e/kg)

Water factor (kgCO2e/m³)

Projection rates (optional)

Efficiency improvement (% per year)

Reduces activity data each year (energy/water/leakage).

Electricity decarbonization (% per year)

Reduces grid electricity factor over time.

District decarbonization (% per year)

Reduces district factor over time.

Fuel decarbonization (% per year)

Optional for biofuels or supply changes.

Clear

Example data table

Use this example to verify your inputs and compare outputs.

Item	Example value	Unit	Example factor	Factor unit	Annual CO2e
Electricity (net after onsite)	100,000	kWh/yr	0.55	kg/kWh	55,000 kg
Natural gas	80,000	kWh/yr	0.184	kg/kWh	14,720 kg
Diesel	2,000	L/yr	2.68	kg/L	5,360 kg
Water	500	m³/yr	0.34	kg/m³	170 kg
Refrigerant leakage	5	kg/yr	2088	kgCO2e/kg	10,440 kg
Example annual total					85,690 kg (≈ 85.69 t)

In this example, electricity is reduced by 20,000 kWh of onsite generation.

Formula used

Annual operational carbon is calculated by multiplying activity data by emission factors and summing all sources.

Annual kgCO2e = Σ(Activityᵢ × Factorᵢ) + (Leakage × GWP) − (Export kWh × Credit Factor)

Net grid electricity = max(0, electricity − onsite used).
Onsite used = min(renewable generation, electricity).
Export = max(0, renewable generation − onsite used).
Lifetime uses either annual × years or a rate-based projection.

Rate-based lifetime projection

When projection is enabled, activity and selected factors reduce each year:

Year k: Valueₖ = Value₁ × (1−eff)^(k−1) × (1−decarb)^(k−1)

This produces a geometric series that is summed across the analysis period.

Operational carbon guidance for projects

1) What this calculator measures

Operational carbon is the greenhouse gas impact from running a facility: electricity, thermal energy, fuels, water services, and refrigerant leakage. This tool totals annual kgCO2e and converts to tCO2e, then reports intensity per square metre and lifetime totals for the chosen analysis period.

2) Input data you should collect

Start with utility bills and metering. Electricity and district energy are entered in kWh per year. Natural gas is also in kWh per year, so convert from volume using your supplier’s energy content. Diesel is litres per year, LPG is kilograms per year, and water is cubic metres per year. Refrigerant leakage uses annual kilograms lost.

3) Emission factors and traceability

Emission factors drive results and should be sourced from verified datasets, utility disclosures, or national inventories. As a practical example, a grid factor of 0.55 kgCO2e/kWh applied to 100,000 kWh/yr produces 55,000 kgCO2e/yr. A gas factor of 0.184 kgCO2e/kWh applied to 80,000 kWh/yr produces 14,720 kgCO2e/yr. Record factor sources for audits.

4) Renewables, export, and projections

Onsite generation first offsets electricity consumption up to the annual load; any remaining generation is treated as export. Some reporting methods allow an export credit using a defined credit factor. If projection is enabled, the tool applies an annual efficiency improvement rate to activity and a decarbonization rate to selected factors, summing a geometric series across the analysis period.

5) Reading the outputs for decisions

Use the annual breakdown to target the dominant sources. High electricity or district energy shares often justify envelope upgrades, efficient HVAC, controls, and electrification. Large refrigerant CO2e can outweigh energy savings, so prioritize low-leak systems and lower-GWP refrigerants. Compare intensity (kg/m²·yr) across design options and track lifetime totals to align with client carbon budgets.

FAQs

1) What units does the calculator expect?

Electricity, district energy, and gas are kWh/yr. Diesel is L/yr, LPG is kg/yr, water is m³/yr, and refrigerant leakage is kg/yr. Emission factors must match those units.

2) Can I use monthly bills instead of annual totals?

Yes. Sum the last 12 months to create annual values. For new buildings, use a modeled annual estimate and update it once measured data becomes available.

3) Why is onsite renewable generation handled separately?

Onsite generation offsets purchased electricity first, reducing net grid kWh. Any remaining generation is treated as export, which may be credited only if your reporting method allows it.

4) How do I choose an electricity emission factor?

Use a factor from your grid operator, utility disclosure, or national inventory for the same year as the consumption data. If reporting requires it, apply location-based or market-based factors accordingly.

5) What does “projection” change?

Projection reduces activity each year by the efficiency rate and reduces selected emission factors by decarbonization rates. It estimates how emissions may decline over time rather than assuming a constant annual footprint.

6) How is refrigerant impact calculated?

Refrigerant CO2e equals leakage (kg/yr) multiplied by the refrigerant’s 100-year GWP (kgCO2e/kg). This can be a major contributor even when energy use is efficient.

7) Is this suitable for formal reporting?

It can support early design and scenario comparisons. For formal submission, confirm factor sources, boundaries, and credits against the required standard and document assumptions alongside the exported results.

How to use this calculator

Enter floor area and the analysis period in years.
Add annual electricity, fuels, water, and refrigerant leakage.
Optionally include onsite renewable generation and export credit.
Review or replace default emission factors with verified local values.
Enable projection if you want efficiency and grid decarbonization rates.
Click Calculate operational carbon to view results above the form.
Download CSV or PDF for reporting and recordkeeping.