Disclosed herein is a heat exchanger apparatus comprising a heat exchanger tube having an inlet valve and an outlet valve. When the valves are open, the refrigerant can flow through the heat exchanger tube, and when the valves are closed, refrigerant can be stored in the heat exchanger tube, thereby reducing the effective heat exchange surface area of the heat exchanger apparatus.

The patent application relates to a district-heat consumer plant which is capable of being linked to a district-heat network and which comprises at least one heat-consumer which is capable of being supplied with heat from the district-heat network, the district-heat consumer plant comprising a port via which the district-heat consumer plant is capable of being linked to a district-heat reflux of the district-heat network, in order to withdraw heat from the district-heat reflux for the purpose of supplying the at least one heat-consumer. The patent application further relates to a district-heat network, to which a district-heat consumer plant is capable of being linked, the district-heat network comprising a district-heat reflux, and the district-heat reflux comprising a port for the district-heat consumer plant, in order to supply the district-heat consumer plant with heat from the district-heat reflux. Lastly, the patent application relates to a district-heat system which comprises a district-heat consumer plant and a district-heat network.

The patent application relates to a district-heat consumer plant which is capable of being linked to a district-heat network and which comprises at least one heat-consumer which is capable of being supplied with heat from the district-heat network, the district-heat consumer plant comprising a port via which the district-heat consumer plant is capable of being linked to a district-heat reflux of the district-heat network, in order to withdraw heat from the district-heat reflux for the purpose of supplying the at least one heat-consumer. The patent application further relates to a district-heat network, to which a district-heat consumer plant is capable of being linked, the district-heat network comprising a district-heat reflux, and the district-heat reflux comprising a port for the district-heat consumer plant, in order to supply the district-heat consumer plant with heat from the district-heat reflux. Lastly, the patent application relates to a district-heat system which comprises a district-heat consumer plant and a district-heat network.

A heat exchanger that includes an input cavity defined by inlet cavity walls; a heat exchanger portion in fluid communication with the input cavity and defined between a first side and a second side, and wherein a plurality of baffles are positioned within the heat exchanger portion; and an outlet cavity in fluid communication with the heat exchanger portion and defined by outlet cavity walls. The heat exchanger portion comprises: a plurality of first fluid paths defined between the baffles and extending from the input cavity to the outlet cavity, and a plurality of tubes extending through the heat exchanger portion from the first side to the second side. Each tube extends through the baffles so as to define a second fluid path through the heat exchanger portion. Heat exchanger systems are also generally provided, along with methods for cooling a hot fluid input with a heat exchanger.

Provided herein are components for a fluid network modified for one or more objective functions of interest such as pressure drop, erosion rate, fouling, coke deposition and operating costs.

Provided herein are components for a fluid network modified for one or more objective functions of interest such as pressure drop, erosion rate, fouling, coke deposition and operating costs.

A heat exchanger (10) includes an assembly of plates (12) stacked in pairs in a longitudinal stacking direction (x) to form a heat exchanger body (14), designed for the circulation of a fluid, comprising a connection device (19) arranged at one extremity of the heat exchanger body (14) in the longitudinal stacking direction (x). The connection device (19) includes an end plate (20) and a cover (22) that can be assembled together to jointly delimit an inlet duct (24) and an outlet duct (26), respectively, to admit the fluid into the heat exchanger body (14) and discharge the fluid from the heat exchanger body (14).

A heat exchanger (10) includes an assembly of plates (12) stacked in pairs in a longitudinal stacking direction (x) to form a heat exchanger body (14), designed for the circulation of a fluid, comprising a connection device (19) arranged at one extremity of the heat exchanger body (14) in the longitudinal stacking direction (x). The connection device (19) includes an end plate (20) and a cover (22) that can be assembled together to jointly delimit an inlet duct (24) and an outlet duct (26), respectively, to admit the fluid into the heat exchanger body (14) and discharge the fluid from the heat exchanger body (14).

A heat exchanger has first and second flow passages with a communication passage therebetween. An inlet/outlet opening in a wall of the first passage receives a one-piece inlet/outlet fitting having an inner tube and an outer ring connected by webs, the tube and ring defining inner and outer flow passages in direct flow communication with the first and second flow passages, respectively. A first end of the tube and an outer surface of the ring are provided with resilient sealing members for sealing within a bore of a coolant manifold. The ring has a planar sealing surface which is sealed to the wall of the first passage, and the second end of the inner tube extends through the first fluid flow passage and is sealed inside the communication passage. Lateral adjustment of the fitting within the inlet/outlet opening compensates for stack-up tolerance variation in the heat exchanger.

A heat exchanger has first and second flow passages with a communication passage therebetween. An inlet/outlet opening in a wall of the first passage receives a one-piece inlet/outlet fitting having an inner tube and an outer ring connected by webs, the tube and ring defining inner and outer flow passages in direct flow communication with the first and second flow passages, respectively. A first end of the tube and an outer surface of the ring are provided with resilient sealing members for sealing within a bore of a coolant manifold. The ring has a planar sealing surface which is sealed to the wall of the first passage, and the second end of the inner tube extends through the first fluid flow passage and is sealed inside the communication passage. Lateral adjustment of the fitting within the inlet/outlet opening compensates for stack-up tolerance variation in the heat exchanger.