| 摘要 |
The super heat pump does not operate as a (flow-compensated) piston-cylinder machine, but as a mechanically isolated tube circuit process or cyclic flow process. This process is intended to raise 1-temperature ambient heat Q(TA) to the temperature TA + DELTA T( DELTA h). DELTA h/1 = mechanically effective gradient of the ambient region. The mechanically closed tube circuit contains a gaseous circulating medium and consists of two mutually inverse compression tubes (confuser and diffuser). Under the effect of speed of revolution and a stationary force field of external origin or determined by the cross-section, tube regions with conservative pressure and temperature differences are produced. They permit a heat input into the tube circuit of Q(TA) and a heat output of Q(TA + DELTA T( DELTA h)), without the transforming heat passage being able to lead to pressure disturbances of the circulation medium, bringing about losses. This innovation has a practically attainable efficiency factor <IMAGE> (T2 = Carnot-pumped temperature) as a result and thus makes possible an extensive use of previously lower-valued 1-temperature heat for heating, cooling, and the operation of heat engines. |
