The present invention generally relates to a cooling tower for a hybrid cooling system. The cooling tower may include a tower shell, a wet cooled segment arranged inside the tower shell, and a dry cooled segment arranged outside the tower shell. The wet cooled segment may include wet cooling cells arranged at a distance from the tower shell with fans arranged thereon for inducing upwards humid air exhaust flow. The dry cooled segment is disposed generally above the air intakes for the wet cells and includes air coolers arranged as vertical cooling deltas around the tower shell. The cooling deltas are equipped with louvers for controlling a cooling air inlet. The cooling tower further includes dry fans arranged in at least some of the inlet openings of the tower shell for inducing mechanical draft for the dry cooled segment.
F28C 1/14 - Réfrigérants à ruissellement à contact direct, p. ex. tours de réfrigération comprenant également un échange de chaleur sans contact direct
B01F 3/04 - Mélange, p.ex. dispersion, émulsion, selon les phases à mélanger de gaz ou de vapeurs avec des liquides
2.
Method for producing a material mixture of powder or granular state material and liquid
The invention is a method for producing a mixture of powder or granular state material and liquid, in the course of which a first mixture is produced by conveying the powder or granular state material through an inlet hopper into an upper mixing space and by feeding the liquid into the upper mixing space, the first mixture is introduced into a lower mixing space through a conducting pipe connecting a bottom part of the upper mixing space and an upper part of a lower mixing space having a cylindrical space portion and a conical space portion, and a second mixture is produced by causing it to collide into a baffle member, the second mixture is discharged through the conical space portion arranged at the bottom part of the lower mixing space. By dividing the second mixture, a first mixture portion is discharged as a mixture material, a second mixture portion is re-circulated into the upper mixing space, and a third mixture portion is conveyed into the upper part of the lower mixing space. The ratio of the first mixture portion to the second mixture portion is chosen to a value between 1:1 and 1:4, the ratio of the first mixture portion to the third mixture portion is chosen to a value between 1:1 and 1:5, and in the lower mixing space the amount of the second mixture is adjusted so that the surface of the second mixture is within the cylindrical space portion of the lower mixing space and is spaced from the baffle member.
G01F 23/16 - Indication ou mesure du niveau des liquides ou des matériaux solides fluents, p. ex. indication en fonction du volume ou indication au moyen d'un signal d'alarme par mesurage de la pression les dispositifs d'indication, d'enregistrement ou d'alarme étant actionnés par des moyens mécaniques ou hydrauliques, p. ex. en utilisant un gaz, du mercure ou un diaphragme comme élément de transmission, ou par une colonne de liquide
The invention is a cooling delta for cooling liquids, gases or vapours, said cooling delta comprising cooling panels arranged at an angle relative to one another, in which cooling panels cooling tubes are arranged, the cooling tubes extend horizontally or substantially horizontally, and the cooling delta further comprising a first media flow header being connected to the cooling tubes at a junction of the cooling panels, and providing a flow communication space for the cooling tubes, and second media flow headers being connected to opposite ends of the cooling panels with respect to the first media flow header, and providing a flow communication space for the cooling tubes.
F28F 9/013 - Supports auxiliaires pour les éléments pour les tubes ou les assemblages de tubes
F28B 1/06 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur est séparée de l'agent de refroidissement par des parois, p. ex. condenseur à surface utilisant l'air ou un autre gaz comme agent de refroidissement
The invention is a hybrid condenser having a direct contact condenser segment (9) and a surface condenser segment (10) arranged in a common condensation space. The hybrid condenser comprises - a surface condenser segment (10) arranged downstream the direct contact condenser segment (9) in the direction of steam flow or below the direct contact condenser segment (9), and - a water guiding element (17) ensuring that the cooling water and condensate mixture generated in the direct contact condenser segment (9) flows downward avoiding the surface condenser segment (10).
The invention is a cooling system comprising adjacent cooling deltas (21, 31) being cooled by a cooling air and being arranged along a path (20, 30). The cooling system is characterised by comprising cooling deltas (21, 31) arranged in groups (22), the cooling deltas of a group (22) being arranged essentially in the same orientation and define an essentially straight path-section, wherein the path-sections of adjacent groups (22) form a zigzagged path (20, 30).
F28B 1/06 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur est séparée de l'agent de refroidissement par des parois, p. ex. condenseur à surface utilisant l'air ou un autre gaz comme agent de refroidissement
6.
ARRANGEMENT FOR IMPROVING THE COOLING CAPACITY AND FREEZE PROTECTION OF AIR-COOLED HEAT EXCHANGERS SUBJECTED TO THE IMPACT OF WIND
The invention relates to an arrangement for improving the cooling capacity and/or freeze protection of air-cooled heat exchangers subjected to the impact of wind, consisting either of guide elements arranged parallel with the axis of the cooling pipes (11) of the heat exchanger, or of a louvre structure (5) and guide elements (11) mounted on the louvres (9), and further consisting of support columns (2) arranged either independently or expediently such that they also strut the heat exchangers (5), where the support columns are adapted to fluid-dynamically cover the shortest outer extremities of the heat exchangers (9). The arrangement according to the invention is characterised by that the guide elements (9) are arranged towards the outer, upwind side of the heat exchanger (2) to divide the airstream flowing in between the support columns (10) to multiple but at least two portions, and the guide elements (9) have a geometric configuration adapted to reduce the parallel component of the air velocity vector of the air flowing beside the arrangement, where said parallel component is parallel with the plane of the support columns (10) arranged along the outer circumference of the heat exchangers (2), and further adapted to guide the flowing air towards a direction perpendicular to the plane of the support columns (10).
F28B 1/06 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur est séparée de l'agent de refroidissement par des parois, p. ex. condenseur à surface utilisant l'air ou un autre gaz comme agent de refroidissement
F28F 27/02 - Commandes ou dispositifs de sécurité spécialement adaptés pour les appareils d'échange ou de transfert de chaleur pour commander la répartition des sources de potentiel calorifique entre des canaux différents
7.
POWER PLANT COOLING SYSTEM AND A METHOD FOR ITS OPERATION
The invention is a power plant cooling system comprising a direct contact condenser (11), a cooling tower (12) with at least one heat dissipating unit (13), a pipeline (15) and a cooling water pump (16) suitable for circulating cooling water between the direct contact condenser (11) and the heat dissipating unit (13), as well as a de-aerating structural component (14) defining a de-aerating space adjoining to the top of a flow space of the heat dissipating unit (13). The inventive cooling system comprises a means suitable for maintaining a vacuum in the de-aerating space. The invention also relates to a method for operating the cooling system.
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
F28B 1/06 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur est séparée de l'agent de refroidissement par des parois, p. ex. condenseur à surface utilisant l'air ou un autre gaz comme agent de refroidissement
F28B 3/04 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur vient en contact direct avec l'agent de refroidissement par injection du liquide de refroidissement dans la vapeur d'eau ou autre vapeur
F28B 5/00 - Condenseurs utilisant une combinaison des procédés couverts par les groupes et Autres condenseurs
F28C 1/14 - Réfrigérants à ruissellement à contact direct, p. ex. tours de réfrigération comprenant également un échange de chaleur sans contact direct
The invention is a hybrid cooling system for condensing the exhaust steam of a steam turbine (10), which cooling system comprises a dry cooling circuit (11), a dry air-cooled unit (12) performing heat dissipation of cooling water flowing therein, and a wet cooling circuit (14) and a wet cooled unit (15) performing heat dissipation of the cooling water flowing therein. According to the invention, the cooling water flowing in the dry cooling circuit (11) is separated from the cooling water flowing in the wet cooling circuit (14), and the dry and wet cooling circuits (11, 14) are connected to a common condenser.
F28B 9/06 - Systèmes auxiliaires, aménagements ou dispositifs accessoires pour amener, recueillir et emmagasiner l'eau ou autre liquide de refroidissement avec possibilités de réfrigérer à nouveau l'eau ou autre liquide de refroidissement
F28C 1/14 - Réfrigérants à ruissellement à contact direct, p. ex. tours de réfrigération comprenant également un échange de chaleur sans contact direct
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
F28B 5/00 - Condenseurs utilisant une combinaison des procédés couverts par les groupes et Autres condenseurs
The invention relates to a mixing condenser with at least one condenser member, the condenser member comprising: a steam space (24); a water chamber (3) providing a cooling water (2) for condensing steam (1) flowing downwards in the steam space (24), the water chamber (3) having nozzles being arranged on the water chamber (3) and ejecting the cooling water (2) essentially crosswise to the flow direction of the steam (1); a catch plate (5) receiving the cooling water (2) ejected by the nozzles and heated up by the steam (1), the catch plate (5) being arranged opposite to the nozzles; a mixture chamber (15) for collecting an air enriched air and steam mixture; and an aftercooler for condensing the remaining steam in the air enriched air and steam mixture. According to the invention, the aftercooler is formed separately from the water chamber (3) providing the cooling water (2) for condensing the steam (1) flowing downwards.
F28B 3/04 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur vient en contact direct avec l'agent de refroidissement par injection du liquide de refroidissement dans la vapeur d'eau ou autre vapeur
F28B 9/10 - Systèmes auxiliaires, aménagements ou dispositifs accessoires pour extraire, refroidir et enlever les gaz non condensables
F28B 11/00 - Commandes avec caractéristiques particulières d'adaptation aux condenseurs
10.
STEAM TURBINE WITH SERIES CONNECTED DIRECT-CONTACT CONDENSERS
The object of the invention is a condensing steam turbine comprising one or more turbine casings, the turbine casing or casings having at least two exhausts separated at the steam side, with the exhausts being connected to condensers (1A, 2A, 3A) utilizing varying input-temperature coolant, said condensers being separated from one another at the steam side and being serially connected to one another at the coolant side. The inventive steam turbine is essentially characterised by that the consecutive exhausts separated at the steam side are arranged such that the choking point and/or exhaust hood temperature limit of the exhausts increases in the direction of the coolant flow. A further object of the invention is a method for extending the unrestricted operating range of condensing steam turbines with the application of the above described solution.
F01K 11/02 - Ensembles fonctionnels de machines à vapeur caractérisés par des machines motrices faisant corps avec les chaudières ou les condenseurs les machines motrices étant des turbines
F28B 3/04 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur vient en contact direct avec l'agent de refroidissement par injection du liquide de refroidissement dans la vapeur d'eau ou autre vapeur
F01D 25/24 - Carcasses d'enveloppeÉléments de la carcasse, p. ex. diaphragmes, fixations
F16M 1/04 - Châssis, carters ou carcasses pour moteurs, machines ou appareilsChâssis servant de bâtis de machines pour moteurs rotatifs ou machines similaires
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
The invention thus relates to a hydromechanical mixture of powder or granular state material and liquid. The apparatus has at least one mixing space (101) and an inlet pipe member (12) for feeding the powder or granular state material from above into the mixing space (10'). The apparatus is characterised by comprising means for cleaning an inner wall of the inlet pipe member (12). Said means comprise: a cleaning member (14) bidirectionally movable in parallel with the inlet direction along the inner wall of the inlet pipe member (12); and an actuating member (16) for moving the cleaning member (14).
B08B 9/04 - Nettoyage des surfaces intérieuresÉlimination des bouchons utilisant des dispositifs de nettoyage introduits dans et déplacés le long des tubes
brevets
