I’m calling bullshit. There’s no way a Peltier element can exceed the coefficient of performance of the refrigeration cycle, at an affordable price, without turning the room into a hothouse.
I’m not questioning the findings. I’m questioning the article, and your interpretation to arrive at such a summary.
APL plans to continue to partner with organizations to refine the CHESS thermoelectric materials with a focus on boosting efficiency to approach that of conventional mechanical systems
energy-harvesting technologies for applications ranging from computers to spacecraft
70% improvement in efficiency in a fully integrated refrigeration system.
It’s all potential, and possibilities, and future projections. I’m sure someone will find real world applications for it, but a fridge tacked out with Peltier tiles that draws energy from its ambient environment (while actively ruining the thermal gradient by the way) is ludicrous.
Read the paper, it’s linked below. This is solid state, there’s no refrigerant. Heat pumps are efficient, and this IS a heat pump, which is far more efficient than the old school heat pump that uses a ‘refrigeration cycle’. I’m with you on being skeptical, and it may be a long time from ‘discovery’ to production of a saleable device, but this IS a legit significant breakthrough.
Modern refrigerators only generate heat through the capture by refrigerant inside and the pump circulating air. Without those, it’s a different story. A Peltier cooling device works similarly, but I can see it being more efficient overall since you would know where the heat ends up. Think car radiator or CPU heatsink. Same basic concept.
I’m calling bullshit. There’s no way a Peltier element can exceed the coefficient of performance of the refrigeration cycle, at an affordable price, without turning the room into a hothouse.
Their findings were published in the peer-reviewed journal, Nature.
https://www.nature.com/articles/s41467-025-59698-y
I’m not questioning the findings. I’m questioning the article, and your interpretation to arrive at such a summary.
It’s all potential, and possibilities, and future projections. I’m sure someone will find real world applications for it, but a fridge tacked out with Peltier tiles that draws energy from its ambient environment (while actively ruining the thermal gradient by the way) is ludicrous.
Umm, a typical refrigerator cranks out a lot of heat. Why would would this be less efficient than that?
Check the efficiency of heat pumps.
Read the paper, it’s linked below. This is solid state, there’s no refrigerant. Heat pumps are efficient, and this IS a heat pump, which is far more efficient than the old school heat pump that uses a ‘refrigeration cycle’. I’m with you on being skeptical, and it may be a long time from ‘discovery’ to production of a saleable device, but this IS a legit significant breakthrough.
Modern refrigerators only generate heat through the capture by refrigerant inside and the pump circulating air. Without those, it’s a different story. A Peltier cooling device works similarly, but I can see it being more efficient overall since you would know where the heat ends up. Think car radiator or CPU heatsink. Same basic concept.