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Thermoelectricity

169 Sentences | 9 Meanings

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Portable thermoelectricity generators can be used to power small electronic devices in off-grid locations.
The design of thermoelectricity generators can be optimized for specific applications, such as automotive waste heat recovery systems.
The use of thermoelectricity devices in spacecraft has greatly expanded our ability to explore the universe.
A thermoelectricity device can be used to generate power from the waste heat produced by industrial processes.
The development of efficient thermoelectricity generators has the potential to revolutionize renewable energy production.
Thermoelectricity generators have been used in deep space missions to power spacecraft electronics.
Thermoelectricity generators can be used to harvest energy from geothermal sources for use in remote locations.
The use of machine learning algorithms can help optimize the design of thermoelectricity generators for specific applications.
The output of a thermoelectricity device can be increased by using materials with higher Seebeck coefficients.
The size and shape of thermoelectricity generators can be customized to fit specific applications.
Thermoelectricity generators can be used to recover waste heat from industrial processes.
Thermoelectricity generators can be used to convert waste heat from engines into electricity.
A thermoelectricity device can be used to charge a mobile phone using the heat from a cup of coffee.
Advances in materials science have led to improvements in the efficiency of thermoelectricity generators.
The portability and simplicity of thermoelectricity devices make them ideal for use in remote and off-grid locations.
The ability of thermoelectricity generators to operate without moving parts makes them attractive for certain applications.
A thermoelectricity device can be used to power a small LED light.
The use of thermoelectricity generators in waste heat recovery systems can greatly improve the efficiency of industrial processes.
Thermoelectricity generators have the potential to improve the energy efficiency of data centers by recovering waste heat from servers.
Thermoelectricity generators can be used to power medical implants that need to operate without external power sources.
The efficiency of thermoelectricity generators can be improved by using multiple materials with different thermal properties.
Thermoelectricity has the potential to revolutionize the way we generate electricity.
The efficiency of thermoelectricity is dependent on the properties of the materials used in the process.
The waste heat produced by industrial processes can be harnessed by thermoelectricity to generate electricity.
One of the advantages of thermoelectricity is that it can be used in remote areas where traditional power generation is not feasible.
The automotive industry is exploring the use of thermoelectricity to improve the fuel efficiency of vehicles.
Researchers are investigating the use of thermoelectricity in refrigeration systems to reduce energy consumption.
Thermoelectricity can be used to convert waste heat from data centers into electricity, reducing energy consumption and costs.
Thermoelectricity can also be used to harness geothermal energy, making it a promising technology for renewable energy generation.
The conversion efficiency of thermoelectricity can be further improved by utilizing advanced techniques such as nanostructuring and superlattice formation.
Thermoelectricity is a field of study that explores the connection between heat and electricity.
The study of thermoelectricity involves understanding the conversion of heat energy to electrical energy or vice versa.
The study of thermoelectricity is essential in the design of thermoelectric devices for energy harvesting and cooling applications.
The principles of thermoelectricity are explored in depth in the branch of physics known as thermoelectrics.
The principles of thermoelectricity involve the relationship between thermal energy and electrical energy.
The use of thermoelectricity in thermoelectric coolers and heaters allows for precise temperature control in electronic devices and other applications.
The thermoelectricity converter could transform heat from a stove into usable electricity.
The efficiency of a thermoelectricity generator depends on the temperature difference between the hot and cold sides.
The device uses a thermoelectricity module to convert heat from the stove into usable electricity.
The power plant uses thermoelectricity to generate electricity from the waste heat produced by the combustion process.
Nanotechnology has been used to improve the performance of thermoelectricity generators by optimizing the size and shape of the materials used.
Thermoelectricity is a promising technology for powering wearable devices and remote sensors that require self-sustained power sources.
The thermoelectricity effect is used in some types of temperature sensors.
The solar panels with built-in thermoelectricity generators could provide both electricity and hot water for a home.
Thermoelectricity is a branch of physics that explores the behavior of materials in response to heat and electric fields.
Thermoelectricity can be harnessed to generate electricity from industrial processes that produce waste heat.
The thermoelectricity cooling module was integrated into the electronic system to prevent overheating.
Thermoelectricity is a phenomenon that allows for the direct conversion of heat energy into electrical energy in certain materials.
The engineers developed a new thermoelectricity device that could harness waste heat from cars to produce electricity.
Thermoelectricity is being explored as a potential solution for waste heat recovery in automotive and transportation sectors.
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