RU2001107731A - KINETIC PUMP-HEAT EXCHANGER (CST) - Google Patents

Claims (6)

1. Kinetic pump-heat exchanger (CST), comprising a casing in the form of a shell (pipe section), with end caps (conditionally upper and conditionally lower or conditionally front and rear), inlet pipes of liquid and working steam, tangential nozzles connected to the inner part the housing through the end caps and (or) the wall of the housing and with a steam supply pipe directly or through an intermediate chamber, a discharge (discharge) fluid pipe connected to the housing tangentially, characterized in that the supply (suction) a liquid outlet is connected to the inner part of the housing through the central part of the end cap or two inlet pipes are installed that are connected to the inner part of the housing through both end caps; in addition, the kinetic pump-heat exchanger (KNT) can be either single-stage (single-case) or two and more stepwise, each subsequent housing of which is connected to the previous one in such a way that the outlet (discharge) nozzle of the previous one is connected to the inlet (suction) nozzle of the subsequent (or is itself leading), or they are interconnected by means of a device for transferring liquid from the largest radius of the cross section of the casing (from the periphery of the casing) of the previous stage to the center of the circle section of the casing of the next stage, and when installing this device in the last step along the liquid a fluid nozzle (discharge nozzle) is installed on the last cover along the fluid path.  2. The kinetic pump-heat exchanger (CST) according to claim 1, characterized in that each subsequent housing (subsequent stage), like the previous one, has end caps, a central fluid inlet pipe, tangential steam nozzles (conical nozzles or Laval nozzles ), attached to the housing and (or) to the covers individually or in groups through an intermediate steam chamber and a discharge discharge pipe of liquid connected tangentially to the housing or mounted on a conditionally lower cover and connected to the inner part housing using a device for transferring fluid from a larger radius of rotation to a smaller one.  3. The kinetic pump-heat exchanger (KNT) according to claim 1, characterized in that the device for transferring liquid from a larger radius of twisting of the liquid to a smaller one is made in the form of a disk coaxial and parallel to the covers, guide vanes are installed between them and the conditionally lower cover , and a fluid outlet pipe is attached to the conditionally lower cover.  4. The kinetic pump-heat exchanger (CST) according to claim 1, characterized in that a device inhibiting the rotation of the liquid, for example a crosspiece, is installed in the fluid supply (suction) pipe (s).  5. The kinetic pump-heat exchanger (KNT) according to claim 1, characterized in that the intermediate chamber, through which steam and nozzles enter, is divided into separate sections, each of which has its own steam inlet pipe.  6. The kinetic pump-heat exchanger (KNT) according to claim 1, characterized in that it has an even number of housings divided into two parallel groups with half the number of housings in each, in which the housings are connected in series along the fluid path and the discharge (outlet) nozzles the last buildings of each group are combined into one pipe.