Cooling system with pressure control

The invention claimed is: 1. A cooling system comprising: a compressor; a condenser; an expansion valve; and a heat exchanger comprising: a vessel for containing a refrigerant, the vessel having an inner space bounded by a closed surface of a vessel wall, the vessel comprising an inlet and an outlet for transport of refrigerant into and out of the inner space through the vessel wall, and a tube at least partly inside the inner space, wherein a first end of the tube is fixed to a first orifice of the vessel wall and a second end of the tube is fixed to a second orifice of the vessel wall to enable liquid communication at least one of into or out of the tube through at least one of the first orifice or the second orifice; a pump to move a fluid through the tube from the first end of the tube to the second end of the tube; a pressure controller configured to control a pressure in the inner space based on a target temperature; wherein the vessel of the heat exchanger is connected with the compressor, the condenser, and the expansion valve by the inlet and the outlet, forming at least one refrigeration cycle in which the heat exchanger is an evaporator; a pressure sensor to measure a pressure of the refrigerant is located inside the vessel; a part of the tube inside the inner space has a length, diameter, and wall thickness, and the pump has a throughput of fluid, that is controlled by the pressure controller such that the fluid at the second end of the tube has a temperature substantially equal to a temperature of the refrigerant in the vessel; wherein the pressure controller is further configured to: receive a target temperature of the liquid inside the tube; determine a target pressure of the refrigerant in the vessel based on the target temperature; control the pressure inside the vessel based on the target pressure; detect an increase in heat exchange demand to cool the liquid in the tube based on a combination of a measured temperature of the liquid inside the tube at the first side of the tube and an amount of gaseous refrigerant moving from the vessel towards the compressor; and control to decrease the pressure in the vessel in response to the detected increase in heat exchange demand. 2. The cooling system of claim 1 , wherein the closed surface of the vessel wall of the heat exchanger includes a hole extending all the way through the vessel, and the tube has at least one winding around a wall portion of said vessel wall, said wall portion defines said hole. 3. The cooling system of claim 2 , wherein the closed surface that includes the hole is a torus. 4. The cooling system of claim 1 , wherein the target pressure of the refrigerant in the vessel is a vapor pressure of the refrigerant at the target temperature. 5. The cooling system of claim 1 , wherein the pressure controller is configured to control the pressure of the refrigerant inside the vessel by controlling at least one of: a suction force of the compressor; or a setting of the expansion valve. 6. 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 ), wherein the inner wall and the outer wall are concentric, wherein the vessel has an inner space bounded by at least the inner wall and the outer wall, the vessel comprising 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 a pressure controller configured to control a pressure in the vessel based on a target temperature based on a combination of a measured temperature of the liquid inside the tube at the first side of the tube and an amount of gaseous refrigerant moving from the vessel towards the compressor in order to anticipate an increase in heat exchange demand prior to any fluid reaching a second end of the tube with a temperature above the target temperature, wherein the controller comprises a table or mapping which relates temperature values to corresponding refrigerant pressure values. 7. The system of claim 6 , wherein a part of the tube inside the inner space has a length, diameter, and wall thickness, and the pump has a throughput of fluid, configured such that the fluid at the second end of the tube has a temperature substantially equal to a temperature of the refrigerant in the vessel. 8. The cooling system of claim 6 , further comprising a pump to move a fluid through the tube from the first end of the tube to the second end of the tube.