Patent application number | Description | Published |
20100193000 | THERMOELECTRIC GENERATOR FOR CONVERTING THERMAL ENERGY INTO ELECTRICAL ENERGY - A thermoelectric generator for converting thermal energy into electrical energy includes a plurality of Peltier elements which are coupled into a module and are arranged between a heat source and a heat sink, with each Peltier element having of a p-doped leg and an n-doped leg which are connected at their ends in an electrically conductive manner by electrodes. Both the p-doped legs and the n-doped legs of the individual Peltier elements are made of different materials, the efficiency of which is optimized with respect to the different temperature values at the contact points of the individual Peltier elements to the heat source. The high-temperature range of the p-doped legs includes MM | 08-05-2010 |
20110062918 | Method and device for monitoring the operating state of a battery - In a method for monitoring the operating state of a battery, preferably a Ni metal hydride or a Li-ion battery, formed of consisting of one or several interconnected battery cells, during the charging and discharging of the battery a low-frequency alternating current signal or voltage signal is applied to the battery. The resulting voltage or current signal is measured and the operating state of the battery or its battery cells is determined from at least one change in the harmonic distortion content of the measured voltage or current signal. | 03-17-2011 |
20120100447 | Method for Operating a High-Temperature Fuel Cell - In a method for operating a high-temperature fuel cell, which in normal mode of generating electrical power is supplied with liquid fuel, preferably diesel oil, and is preceded on the anode side by a reformer for liquid fuel, where at least part of the hot anode exhaust gas is recirculated into the anode circuit via a recirculation line. Upstream of a compressor preceding the reformer the liquid fuel is sprayed or injected into the hot anode exhaust gas, the quantity of air needed for reforming the liquid fuel being added to the mixture of anode exhaust gas and fuel. On change-over from normal operational mode to standby mode without power generation, the supply of liquid fuel and air is stopped and the gas mixture present in the anode circuit be permanently circulated. A defined amount of air being introduced into the anode circuit in order to remove deposits and contaminations in the high-temperature fuel cell following standby operation. | 04-26-2012 |