Einstein Refrigerator

GPTKB entity

Predicate	Object
gptkbp:instance_of	gptkb:product
gptkbp:bfsLayer	3
gptkbp:bfsParent	gptkb:Albert_Einstein
gptkbp:application	commercial refrigeration domestic refrigeration
gptkbp:benefits	environmentally friendly silent operation lower efficiency compared to compressor refrigerators
gptkbp:cooling_system	absorption
gptkbp:design	simple and reliable
https://www.w3.org/2000/01/rdf-schema#label	Einstein Refrigerator
gptkbp:influenced	future refrigeration designs
gptkbp:influenced_by	gptkb:Einstein's_theories
gptkbp:inspired_by	thermodynamics
gptkbp:invention	gptkb:US_Patent_1,781,541 gptkb:Albert_Einstein gptkb:Leo_Szilard 1926
gptkbp:is_used_by	gptkb:Company propane
gptkbp:marketed_as	limited
gptkbp:notable_feature	no moving parts
gptkbp:notable_users	remote locations scientific laboratories early 20th century households
gptkbp:related_concept	sustainability energy consumption energy efficiency environmental impact renewable energy sources climate change mitigation thermodynamic cycles sustainable living energy conversion energy independence thermodynamic efficiency green technology self-sufficiency refrigeration cycle off-grid living heat exchange passive cooling simple technology eco-friendly appliances heat absorption innovation in refrigeration alternative refrigeration methods low-tech solutions non-electric refrigeration refrigeration principles
gptkbp:related_to	refrigeration technology
gptkbp:type	absorption refrigerator
gptkbp:uses	gptkb:hydrogen gptkb:item ammonia