"Great," says I, "but this EnergyGuide tag suggests it's more like $20 a year."
"That's not counting the expense of heating the water," says Slick, "that's the real expense."
But $100? Let's do the math.
Assumptions:
- Two washers, one top-load and one front-load. The former uses 450 kWh per year (and 40 gallons per wash load) and the latter 150 kWh per year (and around 21 gallons per load) for operations. These are typical figures according to the federal Dept of Energy.
- The top-load washer costs $300, the front load washer costs $600.
- Water is heated with natural gas. It takes 706 btus or 0.007 therms of natural gas to heat 1 gallon of water from 55 Fahrenheit to 140 Fahrenheit.
- Electricity costs 8.3 cents per kWh, the national average.
- Natural gas costs $0.91 per therm, the rate from my local utility.
- The water itself costs $0.003 per gallon, the municipal rate in my hometown.
The front-load washer consumes 21 gallons of water, for a cost of 6.1 cents. The energy used to heat the water is 21*706=14,826 btus or 0.148 therms, for a cost of 13.5 cents. So, the front load water and heat cost 19.6 cents per load.
My wife and I average 2 loads a week (104 a year), plus a few bonus loads. Let's call it a round 120 loads.
Since the government provides the electricity use figures on the yellow tag, I'm using those even though they aren't adjusted per load. So each year, the top load washer uses 450 kWh @ 8.3 cents/kWh = $37.35. The front loader uses 150 kWh @ 8.3 cents/kWh = $12.45.
So, our total costs look like this:
Top loader: 120 loads * ($0.371 water/heat per load) + $37.35 for electricity = $81.87 annual operating cost
Front loader: 120 loads * ($0.196 water/heat per load) + $12.45 for electricity = $35.97
Front load annual savings: $45.90 (simple payback = 6.5 years)
Slick clearly doesn't understand that a couple with no kids doesn't run the washer 4 times a week.
For those curious, here's a chart showing the annual cost of each washer based on the number of loads done each week, with the dotted line showing the annual savings.
1 comment:
We might also consider the potential for changes in water and energy cost to differ from the rate of inflation in the coming years. We might run some scenarios to get an idea of the "reasonable range" of the break-even point.
Also, front-loaders are reputed to be easier on your clothes since there is no agitator threatening to stretch them out if they get stuck on other clothes. Depending on your style, longer-lasting clothes may be good or bad. On the other hand, I understand that front-loaders do have longer cycles.
It would also be nice to know if there are differences in repair costs, service life, and disposal/recycling.
Finally, if you are someone who values conservation of resources in general, how much extra would you be willing to pay (beyond the utility savings) annually to have an efficient appliance? I don't know how long a washer lasts nowadays, but even if only 10 years, a chunk of that price difference gets eaten up if you're willing to pay a small amount annually for efficiency for its own sake.
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