Gas Vs Electric Dryer Cost Calculator
Our home economics calculator computes gas vs electric dryer cost instantly. Get useful results with practical tips and recommendations.
Formula
Cost per Load = (Wattage / 1000) x Hours x Rate (electric) or (BTU x Hours / 100,000) x Gas Rate (gas)
For electric dryers, multiply the wattage by dry time in hours to get kWh consumed, then multiply by your electricity rate. For gas dryers, convert BTU consumption to therms and multiply by gas rate, then add the small electricity cost for the motor. Total ownership cost adds purchase price to lifetime operating costs.
Worked Examples
Example 1: Average Family Comparison Over 10 Years
Problem: A family does 6 loads per week with electricity at $0.14/kWh and gas at $1.10/therm. Electric dryer costs $550 and gas dryer costs $750. Compare total cost over 10 years.
Solution: Electric dryer: 5,000W x (50/60)hr = 4.167 kWh/load x $0.14 = $0.58/load\nAnnual: $0.58 x 312 loads = $181.58/year\n10-year operating: $1,815.80 + $550 purchase = $2,365.80\n\nGas dryer fuel: 22,000 BTU x (50/60)hr = 0.183 therms x $1.10 = $0.20\nGas dryer electric: 0.3kW x 0.833hr x $0.14 = $0.035\nGas cost/load: $0.24 | Annual: $73.94\n10-year: $739.40 + $750 purchase = $1,489.40
Result: Gas dryer saves $876.40 over 10 years | Gas breaks even at year 1.9
Example 2: High Electricity Rate Scenario
Problem: A household in Connecticut pays $0.28/kWh and $1.40/therm. They do 4 loads per week. Compare dryer costs over 8 years.
Solution: Electric: 5,000W x 0.833hr = 4.167 kWh x $0.28 = $1.17/load\nAnnual: $1.17 x 208 = $242.88/year | 8-year: $1,943 + $600 = $2,543\n\nGas: fuel = 0.183 therms x $1.40 = $0.26 + elec $0.07 = $0.33/load\nAnnual: $0.33 x 208 = $68.02/year | 8-year: $544 + $800 = $1,344
Result: Gas dryer saves $1,199 over 8 years | Break-even at year 1.1 due to high electricity costs
Frequently Asked Questions
Is a gas or electric dryer cheaper to run?
In most areas of the United States, gas dryers are cheaper to operate on a per-load basis because natural gas is typically less expensive than electricity on an energy-equivalent basis. A typical electric dryer uses about 5,000 watts and costs roughly $0.50-0.75 per load at average electricity rates. A gas dryer uses natural gas for heating and only about 300 watts of electricity for the motor, costing approximately $0.20-0.40 per load. However, the actual savings depend heavily on your local utility rates. In areas with very cheap electricity or expensive natural gas, the advantage may shrink or even reverse. Over 10 years of typical use, the operating cost difference can range from $500 to $1,500 in favor of gas dryers.
How much more expensive is a gas dryer to purchase upfront?
Gas dryers typically cost $50 to $200 more than comparable electric models at purchase time. A mid-range electric dryer costs around $500-700, while a comparable gas model runs $600-900. Additionally, gas dryers require a gas hookup, and if your laundry area does not already have a gas line, installation can cost $200-600 for running a new line. You also need proper venting for both types, though requirements are similar. When factoring installation costs for a new gas line, the upfront premium for gas can be $400-800. However, this upfront premium is typically recovered within 2-4 years through lower operating costs, making gas dryers more economical over their typical 10-13 year lifespan.
Does the dry time differ between gas and electric dryers?
Gas dryers generally dry clothes slightly faster than electric dryers because gas burners produce heat almost instantly, while electric heating elements take longer to reach full temperature. A typical gas dryer completes a standard load in about 40-50 minutes, while an electric dryer may take 45-55 minutes for the same load. This difference is small per load but adds up over time. With 5 loads per week, the time savings amounts to roughly 20-40 hours per year. More importantly, faster drying can reduce energy consumption per load since the dryer runs for less time. When comparing costs, it is fair to assume similar dry times, though gas dryers have a slight efficiency advantage that further reduces their operating cost.
How do I know if my home can support a gas dryer?
To use a gas dryer, your home needs a natural gas or propane supply line near the laundry area, a proper 120-volt electrical outlet for the motor and controls, and adequate exterior venting. Check if there is a gas shutoff valve behind where the dryer would sit. If you only see a 240-volt outlet (large three or four prong receptacle), your home is currently set up for an electric dryer only. Converting to gas requires hiring a licensed plumber or gas fitter to run a gas line, which typically costs $200-600 depending on distance from existing gas lines. If your home does not have natural gas service at all, the conversion cost is substantially higher and may not be worthwhile. Propane dryers are an alternative for homes without natural gas.
What electricity rate and gas rate should I use for accurate comparisons?
For the most accurate comparison, use your actual utility rates from your most recent bills. For electricity, look at the total cost per kilowatt-hour including all delivery charges and fees, not just the generation rate. The average U.S. residential electricity rate is approximately $0.15 per kWh but varies from $0.09 in Louisiana to over $0.30 in Hawaii and Connecticut. For natural gas, find your cost per therm including all delivery charges. The average U.S. residential gas rate is approximately $1.00-1.50 per therm. If you cannot find your exact rates, check your utility company website or look at your bill for the total charges divided by total usage. These rates change seasonally and annually, so checking periodically ensures your cost comparison stays accurate.
Are there environmental differences between gas and electric dryers?
The environmental impact depends on how your local electricity is generated. Gas dryers produce direct carbon emissions from burning natural gas, approximately 2.2 pounds of CO2 per load. Electric dryers produce zero emissions on-site, but the electricity generation creates emissions at the power plant. If your electricity comes primarily from coal, an electric dryer may produce more CO2 than a gas dryer. If your grid is powered by renewables, hydro, or nuclear energy, an electric dryer is significantly cleaner. Nationally, the average electric dryer produces roughly 2.5-3.0 pounds of CO2 per load when accounting for grid emissions. Heat pump dryers have the lowest environmental impact at approximately 1.2-1.5 pounds of CO2 per load on the average U.S. grid.