Natural Gas vs Propane Calculator

Fuel equivalency for heating zones and backup planning

Natural Gas vs Propane Calculator

Compare the same delivered heating load through natural gas and propane equipment, then see equivalent therms, cubic feet, gallons, tank runtime, and gas meter loading before you size a service or choose a fuel path.

Natural gas uses 1,037 BTU per cubic foot and 100,000 BTU per therm.

Propane uses 91,500 BTU per gallon and 21,548 BTU per pound.

Delivered heat adjusts for equipment efficiency and ceiling height.

Gas service headroom and propane reserve update with every preset.

📍Preset Heating Scenarios

What this calculator compares

It estimates delivered heating demand first, then converts that same load into natural gas and propane input using real fuel constants, efficiency assumptions, runtime, meter size, and tank reserve.

📏Load and Fuel Inputs

Unit system

Switches labels and converts the numbers already in the form.

Heated area shape

Use the conditioned zone one fuel source must support.

Length (ft)

Interior dimensions are better than exterior wall lengths.

Width (ft)

Rectangle mode multiplies length by width.

Ceiling height (ft)

The load scales from an 8 foot ceiling baseline.

Appliance pair

Each pair stores separate natural gas and propane efficiency assumptions.

Load profile

Base load is BTU per square foot per hour before modifiers.

Exposure multiplier

Adjusts for shell leakage, wind, and glass area.

Heating hours per day

Use the actual daily burn window rather than occupancy time.

Reserve margin

Reserve adds extra demand for colder swings and recovery.

Natural gas meter capacity

Average cubic feet per hour is compared against this service size.

Propane storage size

Propane tanks are modeled at 80 percent usable volume.

Comparison note

This note prints with the calculator and ties the numbers to a real project.

Natural gas1 cubic foot carries 1,037 BTU. One therm carries 100,000 BTU.

Propane1 gallon carries 91,500 BTU. One pound carries about 21,548 BTU.

Volume effectCeiling height changes cubic volume and scales hourly demand from the 8 foot baseline.

Planning lensResults compare delivered heat, meter headroom, and onsite reserve rather than nameplate input alone.

Comparison Results

Both fuels are sized to cover the same delivered heat demand for the selected zone and runtime.

Ready for comparison

Design Load0 BTU/h0 kW delivered heat

Natural Gas Use0 therm/day0 CFH average | 0 therm/month

Propane Use0 gal/day0 lb/day | 0 gal/month

Reserve Outlook0 days0 percent of selected gas meter

Gas Service Utilization

Average natural gas flow will appear here after calculation.

Propane Refill Window

Tank reserve span will appear here after calculation.

Heated area0 sq ft | 0 sq m

Conditioned volume0 cu ft | 0 cu m

Base load formula0 x 0 x 0

Daily delivered heat0 BTU/day

Natural gas input0 BTU/day

Propane input0 BTU/day

Natural gas flow0 cf/day | 0 cf/h

Propane draw0 gal/h | 0 lb/day

Fuel reserve noteNo comparison yet

Scenario noteNo note entered

📊Fuel Constants and Planning Anchors

1,037BTU per cubic footUsed to convert natural gas input BTU into line flow and service demand.

91,500BTU per gallonUsed to convert propane input BTU into gallons per day and tank reserve span.

80%Usable tank fillNominal propane storage is reduced to realistic usable volume for planning.

8 ftCeiling baselineHigher ceilings increase heated cubic volume and raise the final hourly load.

Fuel Equivalency Snapshots

Delivered Heat	NG at 95%	LP at 95%	Use Case
250,000 BTU/day	2.63 therm/day	2.88 gal/day	Tight room or shoulder zone
500,000 BTU/day	5.26 therm/day	5.75 gal/day	Main living level
900,000 BTU/day	9.47 therm/day	10.36 gal/day	Garage, shop, or cold snap
1,500,000 BTU/day	15.79 therm/day	17.26 gal/day	Whole-home design-day load

Appliance Pair Assumptions

Pair	NG Eff	LP Eff	Best Fit
Condensing furnace	96%	95%	Whole-house ducted heat
Standard furnace	82%	83%	Legacy central systems
Garage unit heater	80%	82%	Shops and bays
Hydronic boiler	87%	88%	Radiators and slabs
Vented wall heater	78%	79%	Cabins and zone heat
Radiant tube	84%	85%	Tall detached spaces

Common Project Sizes and Rough Fuel Demand

Project	Area	Design Load	Therms/Day	Gallons/Day
Single bonus room	168 sq ft	3,700-4,200 BTU/h	0.45-0.55	0.50-0.60
Detached garage bay	400 sq ft	13,000-17,000 BTU/h	2.2-3.0	2.4-3.3
Main living floor	1,500 sq ft	34,000-45,000 BTU/h	7.0-11.5	7.7-12.6
Whole-house winter load	2,000 sq ft	50,000-65,000 BTU/h	12.5-18.0	13.7-19.7

💡Practical Comparison Tips

Use delivered heat when comparing fuels

If two appliances do not share the same efficiency, raw BTU input will hide the true difference. This calculator converts the same delivered load into the fuel each appliance actually needs.

Pair storage planning with peak-flow checks

Natural gas needs enough meter headroom at the same time propane needs enough gallons on site. Looking at both service paths together avoids choosing a fuel that works only on paper.

When you are choosing between installing a natural gas or propane unit heater in your home, you must decide between these two fuel. Both of these fuels provides the heat that you need in your home. However, the units in which natural gas and propane are measured are different.

Natural gas is measured in cubic feet, and propane is measured in gallon. Therefore, you must use the mathematics of each fuel to compare propane to natural gas to decide which fuel to install in your home. A cubic foot of natural gas contains 1,000 BTUs of energy, and one gallon of propane contains 91,000 BTUs of energy.

How to Choose Between Natural Gas and Propane Heaters

Since propane contains more energy per unit measure than natural gas, you must calculate the energy need of the space where you will install the unit heater. The energy needs of a space is based off the size and the insulation of that space. The size of a space includes the square footage of the space, the height of the ceilings within the space, and the insulation of the structure itself.

For instance, spaces with high ceilings require more energy to heat than spaces with low ceilings due to an additional volume of air that must be heated. Additionally, the insulation of a space affects the energy needs for heating that space. Spaces that are poorly insulated, like a drafty garage, will require more energy to heat than a well-insulation space.

The efficiency of the heater that you will install in your home will also have an impact upon the amount of fuel that you will use to heat your home. Condensing furnace are typically more efficient than older standard furnaces. Condensing furnaces can extract 95% of the energy from the fuel that is burned in the furnace, while older standard furnances only extract about 80% of the energy from the fuel that is burned.

Thus, if your furnace is less efficient than condensing furnace models, the furnace will use more natural gas or propane fuel to reach the same heating temperature as a highly efficient condensing furnace. Another factor to consider when installing a unit heater is the runtime of that unit heater. Runtime is the amount of time that the unit heater’s burner is active.

For instance, the living room in your house may have a low runtime during the summer month, but the living room will have a high runtime during the winter months. Additionally, you should consider including a reserve margin for extreme weather in your calculations of the fuel requirement of your unit heater. Finally, the exposure of the space to the wind will also affect the fuel consumption of your unit heater.

The more exposed a space is to the wind, the more fuel will be required to maintain the desired heating temperature in that area. Finally, it is important to consider the service limits for both natural gas and propane. Natural gas is delivered to your home through a utility line that has a limit to the amount of gas that can pass through the meter that measures the gas that comes into your home.

If you use too much gas, you may require a service upgrade to your utility company to increase the size of the meter for your home. Propane tanks have a limit to the amount of propane that they can hold. Additionally, people typically fill propane tanks to only 80% of their total capacity to allow for the propane to be able to expand while in the tank.

Therefore, a 250 gallon propane tank will only hold 200 gallon of propane. Many people make mistake when they are choosing between propane and natural gas heaters. One common mistake is to only consider the raw input rating of the heaters.

The raw input ratings do not account for the efficiency of the heater. Thus, if a heater is less efficient than others in the industry, it will waste fuel. Another mistake is to forget to account for the height of the ceilings in your home.

If you do not account for the height of the ceilings, you may purchase a heater that is too small for your livig space. Finally, you should also consider your lifestyle and the rates of natural gas and propane in your area when purchasing your unit heater. Natural gas is typically cheaper than propane, but natural gas may not be available during certain weather outages.

Propane provides more independence to your home because it is stored on your property, but the prices of propane can change more frequently then the prices of natural gas. You should of checked the rates before you buy.