Bringing Thermoelectricity Into Reality 2018
DOI: 10.5772/intechopen.75791
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Thermoelectric Cooling

Abstract: In this chapter, design and analysis study of thermoelectric cooling systems are described. Thermoelectric (TE) cooling technology has many advantages over the conventional vapor-compression cooling systems. These include: they are more compacted devices with less maintenance necessities, have lower levels of vibration and noise, and have a more precise control over the temperature. These advantages have encouraged the development of new applications in the market. It is likely to use TE modules for cooling th… Show more

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Cited by 9 publications
(4 citation statements)
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“…Thermoelectric (TE) devices can convert heat into electricity via the Seebeck effect or use electrical power to establish a temperature difference across the device and provide cooling (Peltier effect). This technology has been successfully in use for many years in aerospace missions and cooling applications , and recently has gained attention for power generation in other areas where heat is available, such as industries, , the human body, , combustion engines, or even in volcanos . TE systems have several advantages that are difficult to overcome by other technologies; for example, they are environmentally friendly, silent, and compact and have no moving parts (free of maintenance).…”
Section: Introductionmentioning
confidence: 99%
“…Thermoelectric (TE) devices can convert heat into electricity via the Seebeck effect or use electrical power to establish a temperature difference across the device and provide cooling (Peltier effect). This technology has been successfully in use for many years in aerospace missions and cooling applications , and recently has gained attention for power generation in other areas where heat is available, such as industries, , the human body, , combustion engines, or even in volcanos . TE systems have several advantages that are difficult to overcome by other technologies; for example, they are environmentally friendly, silent, and compact and have no moving parts (free of maintenance).…”
Section: Introductionmentioning
confidence: 99%
“…In this experiment was performed by laying a heat sink in a duct of rectangular shaped fin's with insulated surface-area. Then the "Pressure, Temperature nearby the Inlet-outlet of the duct are monitored" [12], and power is required to maintain a certain temperature at the heatsinks values are generated and tabulated in Table 1 base surface under these conditions, the corresponding heat released by the heat sink device and Pressure loss across the duct can be estimated. The purpose of the application was to study typical experiments.…”
Section: Temperature Transmissionmentioning
confidence: 99%
“…Using Thermoelectric Coolers has many benefits: (a) low-maintenance cost as it does not have any moving part; (b) ability to cool/heat below or above ambient temperature; (c) the module can be employed as a heating or cooling source; (d) precise temperature control; (e) high reliability and extensive life-time due to their solid-state construction; and (f) no electrical or acoustical noise. Additionally, they are inexpensive, lightweight, and efficient, making them a suitable choice for the intended application [60].…”
Section: B Second Calibration Boardmentioning
confidence: 99%