68 results about "Thermoelectric battery" patented technology

A system for harvesting electric energy from thermal energy includes energy conversion assemblies that can be distributed about a conduit through which a heated effluent flows. Each energy conversion assembly includes two heat sinks, a thermoelectric cell sandwiched between the two heat sinks, and a thermal insulating gasket surrounding the thermoelectric cell and separating the two heat sinks. Circuit wiring electrically connects to each thermoelectric cell where the energy conversion assemblies are electrically connected to one another in parallel. An electric power storage device is coupled to the circuit wiring.

Device for the production of light contains at least one thermoelectric element, which is in thermal communication with a source of thermal energy, the electricity for production of light is generated by thermal effects on the surfaces of element through heat pumping, and the transformation of thermal energy into electrical energy is realized and electricity is produced in at least one thermoelectric cell, produced current is led into the controller of charge and/or discharge, and/or into at least one accumulator, and the regulator of charge and/or discharge is connected through power lines on at least one lighting element, which provides conversion of electric energy to light and is connected with at least one switch and leads into the regulator charge and/or discharge, and characteristic is that, the electrical current leads through at least one lighting element, the device transmits light energy and the light is on.

The invention discloses a multi-stage efficient coupling high temperature sensible heat-latent heat phase change energy storage thermoelectric power generation device, composed of a plurality of energy storage power generation units serially connected in a two-dimensional or three-dimensional space via connection tubes, wherein the energy storage power generation unit is formed by mutually and efficiently coupling an energy storage support body with thermoelectric batteries packaged on the outer side of the energy storage support body. Inorganic salt composite phase change heat energy storage material is filled and sealed in the phase change energy storage cabin of the inorganic salt/ceramic-based high temperature composite phase change energy storage support body, and the thermoelectric batteries are sealed between the inorganic salt/ceramic-based high temperature composite phase change energy storage support body and cooling fins. The inorganic salt/ceramic-based high temperature composite phase change energy storage support body is the inorganic salt composite phase change material infiltrated by a cellular ceramic-based support body. The system can efficiently recover waste heat in high temperature exhaust gas such as boiler exhaust gas and automobile exhaust gas, thus the utilization rate of fuel is improved, and emission of the harmful gas is reduced. The device can be widely applied to recovering the waste heat of high temperature industrial exhaust gas, automobile exhaust gas and the like.

A device for producing electrical power in a gas turbine or the like of an aircraft, the device including a plurality of thermoelectric cells having a face surrounding a hot source. A cold source is constituted by a cold fluid flowing over the other face of the thermoelectric cells.

The invention discloses a new solar photovoltaic thermal device. A nanofluid flows from a nanofluid outlet of a spiral coil cooling tube, flows through a flow control valve, a heat exchanger and a liquid pump sequentially through a pipeline, and flows into the spiral coil cooling tube via a nanofluid inlet, so as to form a circulation loop. The photoelectric output DC end of a solar cell panel andthe thermoelectric current DC output end of a thermoelectric battery are connected to an inverter through wires. The new solar photovoltaic thermal device fully integrates a thermoelectric battery thermoelectricity technology, a phase change energy storage technology and an efficient thermal conductivity technology of a Cu nanofluid, and the three mutually complementary technologies mutually fuseto promote the formation of the new solar photovoltaic thermal device.

The invention discloses a power supplying system of temperature differential battery and accumulator in the DC power supplying domain, which comprises the following parts: accumulator, switch, controllable silicon, heat accumulating groove, load, heat exchanger, connecting pipe and pump, wherein the temperature difference battery is generating part and control part; the accumulator is accumulating part; the temperature differential battery is attached on the solar plane of heat exchanger; the connecting pipe connects heat-exchanger, pump and heat accumulating groove together with water in the pipe; the thermal insulating material is covered on the back and lateral of heat-exchanger, outer surface of connecting pipe and heat accumulating groove; the anode of two accumulators cascades a controllable silicon, which parallels temperature differential battery at A and B point; two control poles of controllable silicon connects A and B point separately, which supply power for load R in connection with switch K. The invention improves energy transmission rate without energy consumption and pollution, which lengthens accumulator utility lifetime.

The invention relates to a single-layer thermoelectric device manufactured by the thin-film thermoelectric material and an integration micro thermoelectric device. The single-layer thermoelectric device comprises P type thermoelectric thin-film material monomer and N type thermoelectric thin-film material monomer by electric series connection and electric parallel connection, the difference in temperature with the conductive ejector is established along the length direction of the thermoelectric material. The integration micro thermoelectric device which comprises the single-layer thermoelectric device manufactured by the thin-film thermoelectric material by electric series connection and electric parallel connection is an integration thermoelectric device with lamellar structure in the interior. The invention integrates more thermoelectric monomers on the smaller cross-sectional area of heat flow, the thermoelectric battery with the structure is provided with more energy per unit volume, the cryostat with the structure can establish more difference in the temperature, the infrared detector and thermometric indicator with the structure is provided with high measurement accuracy.

The invention relates to a thermoelectric battery with a series-wound electric leg structure. An N type electric leg (1) is connected between a high-temperature-end electrode (31) and a low-temperature-end electrode (32) on a substrate (5); a P type electric leg (2) is connected with the high-temperature-end electrode (31) and another low-temperature-end electrode (32); the thermoelectric materials of the N type electric leg (1) and the P type electric leg (2) are divided into two or more sections, and the sections are connected by metal (4). By adoption of the structure, the distance from the cold end to the hot end of the battery can be effectively prolonged, and the temperature difference between the cold end and the hot end can be increased, so that the performance of the thermoelectric battery is improved consequently; the thermoelectric battery provided by the invention can adjust the lengths of the p type and n type thermal electric legs and the metal according to actual application conditions to change the temperature difference between the cold end and the hot end, so that temperature gradient regulation and control is realized; and compared with the conventional thermoelectric battery, the thermoelectric battery with the series-wound electric leg structure has wider application prospects.

The invention relates to a cooking appliance with a thermoelectric cell, including a cooking appliance body, a handle, a thermoelectric cell and an electricity device. The handle is arranged on the cooking appliance body. The electricity device is arranged on the cooking appliance body or the handle. The thermoelectric cell is electrically connected with the electricity device and is used as a power supply for the electricity device. In the technical scheme of the invention, the thermoelectric cell is used as the power supply of the electricity device on the cooking appliance, which avoids the trouble of changing batteries and provides the auto-switching function to the electricity device on the cooking appliance.

The invention discloses a solar photovoltaic-thermoelectric integrated device. The device comprises a frame, a photovoltaic cell and a photovoltaic external electrode, wherein a heat conducting layer and a thermoelectric cell are arranged below the photovoltaic cell 2 in turn; the photovoltaic cell is arranged on the upper part inside the frame; the thermoelectric cell is arranged on the lower part inside the frame; the photovoltaic cell and the thermoelectric cell are connected by the heat conducting layer; and a thermoelectric external electrode is connected with the thermoelectric cell. By integrating solar photovoltaic power generation and thermoelectric generation into the same frame, the solar energy utilization rate is greatly improved, the waste heat of a photovoltaic system is reasonably and efficiently used, and the problem that the efficiency is reduced when the temperature of the photovoltaic system is increased during operation is solved.

The invention relates to the technical field of living supplies, in particular to a thermoelectric intelligent water cup powered by thermoelectric materials. The thermoelectric intelligent water cup comprises a cup body, a power generation module, a heat dissipation module, an energy storage module and a monitoring display output module, the cup body comprises a cup lid, a metal shell, and a liner, the lower side of the liner is in contact with the upper surface of the power generation module, the heat dissipation module is attached to the lower surface of the power generation module, the energy storage module is connected with the power generation module, stores electric energy generated by the power generation module, and can supply power to the monitoring display output module. According to the thermoelectric intelligent water cup powered by the thermoelectric materials, a thermoelectric material power generation technology is utilized, a water cup structure is designed, heat flow distribution of the water cup is planned, and the heat dissipation module is added, so that the effect of long-term stable power supply is achieved; and meanwhile, the monitoring display output moduleis integrated inside the cup body, and the thermoelectric intelligent water cup can have the functions of heating and heat preservation on liquid in the water cup, bluetooth, water quality and water temperature monitoring, time display, environmental temperature and humidity display, light-sensitive night light, alarm clock and the like.

The invention relates to a flexible photoelectric heat composite cell comprising a solar energy cell, a thermal-electric cell and a flexible substrate; the solar energy cell and the thermal-electric cell are respectively arranged on two sides of the flexible substrate, and combined via the flexible substrate. The thermal-electric cell is composited on a flexible photovoltaic cell, thus using sunlight for photovoltaic generation, using sunshine heat radiation for power generation so as to implement the generating capability, and improving the sunshine generating efficiency. The composite cell can combine the advantages of the solar energy cell and the thermal-electric cell, and employs the flexible material; the obtained cell is hard to break, foldable, bendable, light in weight, easy to transport, and high in performance.

An electronic device includes a bottom housing, a heat-generating component placed on the bottom housing, and a thermoelectric cell module placed on the bottom housing and corresponding to the heat-generating component. The thermoelectric cell module includes a first thermoelectric sheet sensing a temperature of the heat-generating component, a second thermoelectric sheet sensing a temperature of the bottom housing, and a conductive member electrically connecting the first thermoelectric sheet and the second thermoelectric sheet.

The invention relates to a thermoelectric power generation experimental device, which comprises a heating device, a thermoelectric battery and a water cooling circulating device in turn from bottom totop. The temperature difference power generation experiment device of the invention utilizes a temperature control probe, a temperature control meter and a solid state relay to precisely control thetemperature on the upper side and the lower side of the temperature difference power generation chip, so that the temperature on the upper side and the lower side of the temperature difference power generation chip is kept stable, heat dissipation is reduced, and measurement accuracy is improved. The thermoelectric power generation experiment device of the invention maintains the low temperature of the cold end of the thermoelectric power generation sheet constant through a water cooling circulating system, and reduces the temperature dissipation of the hot end of the thermoelectric power generation sheet through a heat insulation asbestos material. The experimental device is suitable for the teaching of college physics experiment because of its rapid temperature rise and accurate temperature difference measurement.

The invention relates to a deodorizing refrigerator for supplying electricity to an ozone machine by using temperature difference, which comprises a refrigerator and a thermoelectric battery. A conductor at one end of the thermoelectric battery is fixedly attached to the surface of a refrigerator compressor or the outer top portion of the refrigerator, a conductor at the other end of the thermoelectric battery is fixedly attached into a freezing chamber of the refrigerator, an ozone generation device is installed in the refrigerator, and an output power line of the thermoelectric battery is connected with the ozone generation device. The deodorizing refrigerator can save batteries and is environment-friendly and practical.