Heat exchanger

The invention claimed is: 1. A heat exchanger for refrigerating a fluid in a refrigerating system, comprising: a vessel ( 501 , 601 ) for containing a refrigerant, the vessel comprising an inner wall ( 505 , 605 ) and an outer wall ( 503 , 603 ), the inner wall and the outer wall are concentric, an inner space bounded by at least the inner wall and the outer wall, and an inlet ( 521 , 621 ) and an outlet ( 519 , 619 ) for transport of refrigerant into and out of the inner space ( 607 ); a tube ( 631 ) inside the inner space ( 607 ) arranged in a plurality of turns around the inner wall and is adapted to be surrounded by the refrigerant, the tube ( 631 ) is arranged to occupy at least two thirds of a volume of the inner space ( 607 ) with the plurality of turns being spaced apart from one another; the outlet ( 519 , 619 ) is adapted to be located above a highest level ( 120 , 220 ) of a liquid portion of the refrigerant, and the tube ( 631 ) is adapted to be at least partly located within a bath of the liquid portion of the refrigerant; and a pressure controller configured to control a pressure of the refrigerant in the inner space based on a target temperature of a fluid inside the tube. 2. The heat exchanger of claim 1 , wherein the vessel ( 501 , 601 ) comprises a first orifice ( 513 ) and a second orifice ( 511 ), and the tube comprises a first end and a second end, and the first end of the tube is fixed to the first orifice ( 513 ) of the vessel wall and the second end of the tube is fixed to the second orifice ( 511 ) of the vessel wall, to enable fluid communication at least one of into or out of the tube ( 631 ) through at least one of the first orifice or the second orifice. 3. The heat exchanger of claim 1 , further comprising: a refrigerant input tube ( 517 ) connected to the inlet ( 521 , 621 ) of the vessel and arranged to allow a flow of a refrigerant through the refrigerant input tube into the inner space ( 607 ); and a refrigerant output tube ( 515 ) connected to the outlet ( 519 , 529 ) of the vessel and arranged to allow flow of the refrigerant out of the inner space ( 607 ) into the refrigerant output tube ( 515 ). 4. The heat exchanger of claim 3 , wherein the first orifice ( 513 ) is arranged at two thirds of a height of the vessel ( 501 , 601 ) or higher, and the second orifice ( 511 ) is arranged at one third of the height of the vessel ( 501 , 601 ) or lower, and the height is measured along a concentricity axis. 5. The heat exchanger of claim 1 , wherein the tube ( 631 ) is arranged with a plurality of turns around the inside wall ( 505 , 605 ). 6. The heat exchanger of claim 1 , wherein the inner space ( 607 ) has a shape of a toroid. 7. A refrigerating system comprising: a heat exchanger according to claim 1 ; an input tube fluidly connected to the inner space and arranged to allow a flow of the refrigerant through the input tube into the inner space; an output tube fluidly connected to the inner space and arranged to allow a flow of the refrigerant out of the inner space into the output tube; a compressor ( 527 ) arranged to receive the refrigerant from the output tube and to compress the refrigerant; and a condenser ( 523 ) arranged to receive the refrigerant that has been compressed fluid from the compressor, to condense the refrigerant, and to forward the compressed refrigerant into the input tube. 8. The refrigerating system of claim 7 , further comprising a fluid container ( 530 ) and a tap ( 535 ), wherein a first end of the tube is operatively connected to the fluid container ( 530 ) and arranged to allow the flow of a fluid to be refrigerated from the fluid container ( 530 ) into the tube ( 631 ), and a second end of the tube is operatively connected to the tap ( 535 ) and arranged to allow the flow of the refrigerated fluid out of the tube ( 631 ) into the tap ( 535 ). 9. The heat exchanger of claim 1 , wherein the inlet is adapted to be located above the highest level of the liquid portion of the refrigerant. 10. A heat exchanger for refrigerating a fluid in a refrigerating system, comprising: a vessel ( 501 , 601 ) for containing a refrigerant, the vessel comprising an inner wall ( 505 , 605 ) and an outer wall ( 503 , 603 ), the inner wall and the outer wall are concentric, an inner space bounded by at least the inner wall and the outer wall, and an inlet ( 521 , 621 ) and an outlet ( 519 , 619 ) for transport of refrigerant into and out of the inner space ( 607 ); a tube ( 631 ) inside the inner space ( 607 ) arranged in at least one turn around the inner wall and is adapted to be surrounded by the refrigerant; and the outlet ( 519 , 619 ) is adapted to be located above a highest level ( 120 , 220 ) of a liquid portion of the refrigerant, and the tube ( 631 ) is adapted to be at least partly located within a bath of the liquid portion of the refrigerant; a pressure controller configured to control a pressure in the vessel based on a target temperature; a temperature sensor configured to determine a measured temperature of fluid inside the tube ( 631 ); and the pressure controller being further configured to control the pressure of the refrigerant in the inner space based on the target temperature and the measured temperature of the fluid inside the tube. 11. A method of refrigerating a fluid, the method comprising: controlling ( 701 ) a flow of a refrigerant through an input tube fluidly connected to an inner space of a vessel through the input tube into an inner space and a flow of the refrigerant from the inner space into an output tube connected to the inner space, wherein the vessel comprises an inner wall and an outer wall, the inner wall and the outer wall are concentric and the inner space is bounded by at least the inner wall and the outer wall, an inlet and an outlet for transport of refrigerant into and out of the inner space, the outlet being adapted to be located above a highest level of the liquid refrigerant, and a tube inside the inner space arranged in a plurality of turns around the inner wall, that is adapted to be surrounded by the refrigerant and at least partly located within a bath of liquid refrigerant, the tube ( 631 ) is arranged to occupy at least two thirds of a volume of the inner space ( 607 ) with the plurality of turns being spaced apart from one another; controlling ( 702 ) a flow of a fluid to be refrigerated through the inner tube and controlling a pressure of the refrigerant in the inner space based on a target temperature of a fluid inside the tube.