Statements (49)
Predicate | Object |
---|---|
gptkbp:instanceOf |
thermoelectric device
|
gptkbp:advantage |
no moving parts
compact size low efficiency precise temperature control limited cooling power requires heat dissipation |
gptkbp:alsoKnownAs |
gptkb:TEC
thermoelectric cooler |
gptkbp:application |
optical devices
scientific instruments medical devices thermal cycling dehumidifiers electronics cooling portable coolers |
gptkbp:availableOn |
widely available
|
gptkbp:component |
wine coolers
temperature controllers CPU coolers laser diode coolers portable refrigerators thermoelectric cooling system |
gptkbp:coolingCapacity |
varies by model
|
gptkbp:designer |
yes
|
gptkbp:effect |
lower than vapor-compression refrigeration
|
gptkbp:function |
heat transfer
heating cooling |
gptkbp:heatMovesFrom |
one side to the other
|
https://www.w3.org/2000/01/rdf-schema#label |
Peltier module
|
gptkbp:inventedBy |
gptkb:Jean_Charles_Athanase_Peltier
|
gptkbp:material |
gptkb:microprocessor
gptkb:bismuth_telluride |
gptkbp:operatingSystem |
-55°C to 83°C
|
gptkbp:polarization |
yes
|
gptkbp:requires |
direct current
|
gptkbp:standardModel |
TEC1-12706
TEC1-12710 TEC1-12715 |
gptkbp:standardVoltage |
5V
12V 24V |
gptkbp:usedIn |
gptkb:consumer_electronics
scientific research DIY projects |
gptkbp:usesEffect |
gptkb:Peltier_effect
|
gptkbp:bfsParent |
gptkb:thermoelectric_cooling
|
gptkbp:bfsLayer |
7
|