> DOE’s Building Technologies Office is seeking new clothes dryer technologies that can increase the energy factor (EF) from 3.7 to 5.43 lb/kWh without increasing drying time by more than 20% over baseline units.
They're concentrating too much on kWh. One could use the same technology and focus on variable electricity pricing. I want a dryer that I turn at night, and it dynamically turns on-and-off as electricity rates go up and down. It ends at a smooth tumble in the morning so I can put on my day's clothes and fold the rest at it's lowest wrinkle-point.
This is an interesting idea and probably would be useful but would only address people in single-family dwellings that don't share driers. I'm guessing that there is a reasonable use of clothes driers in commercial settings (laundry services) and shared driers in multi-family/large residential complexes (although many modern upscale projects have in-unit driers) where driers are shared.
Probably the best solution is a cultural shift to air drying. I was very surprised that when I was in the UK, a place not known for sunshine, many air dried their clothes, while when I lived in the desert of Eastern WA nearly everyone used a drier.
In Australia, that's very hard to achieve because the residential energy market is heavily regulated specifically to _avoid_ exposing low-end consumers to spot pricing.
In at least WA, NSW, QLD and ACT you can go on time-of-use residential tariffs.
And driers (and washing machines - which use a considerable amount of energy particularly if they heat the water internally) typically already have timer-start functions.
They're concentrating too much on kWh. One could use the same technology and focus on variable electricity pricing. I want a dryer that I turn at night, and it dynamically turns on-and-off as electricity rates go up and down. It ends at a smooth tumble in the morning so I can put on my day's clothes and fold the rest at it's lowest wrinkle-point.