Water purification apparatus and methods for cleaning the water purification apparatus

The invention claimed is: 1. A water purification apparatus for producing purified water, the water purification apparatus comprising: a reverse osmosis device arranged to produce a purified fluid flow and a reject fluid flow, the reverse osmosis device comprising a feed inlet, a permeate outlet, and a reject outlet; a feed fluid path arranged with a reverse osmosis pump to pump feed fluid to the feed inlet; a heater arranged to heat purified fluid produced by the reverse osmosis device downstream from the reverse osmosis device; a purified fluid path arranged to transport the heated purified fluid; a polisher device arranged in the purified fluid path; a second fluid path arranged to bypass the polisher device and to transport the heated purified fluid past the polisher device; a valve arrangement arranged to direct the heated purified fluid into the purified fluid path or into the second fluid path; and a control unit configured to control cleaning of the water purification apparatus, the control unit being configured to cause the water purification apparatus to: control heating, with the heater, of the purified fluid in the purified fluid path in order to fulfill a first temperature dependent disinfection criterion for the polisher device, re-direct the valve arrangement to bypass the polisher device in response to the first temperature dependent disinfection criterion for the polisher device being fulfilled, and control heating, with the heater, of the purified fluid in the second fluid path in order to fulfill a second temperature dependent disinfection criterion for the second fluid path. 2. The water purification apparatus according to claim 1 , wherein the second fluid path includes at least one of: a port in fluid communication with the second fluid path, the port being arranged to be connected to a fluid line set, wherein the second temperature dependent disinfection criterion is a temperature dependent disinfection criterion for the port, and a first drain path, wherein the second temperature dependent disinfection criterion is a temperature dependent disinfection criterion for the first drain path. 3. The water purification apparatus according to claim 1 , wherein the permeate outlet is arranged such that it is fluidly coupled to the heater in order to heat the purified fluid produced by the reverse osmosis device. 4. The water purification apparatus according to claim 1 , wherein the polisher device includes at least one of an electrodeionization unit or a mixed bed filter device. 5. The water purification apparatus according to claim 1 , further comprising a temperature sensor arranged to measure a temperature of the purified fluid in the purified fluid path, wherein the first temperature dependent disinfection criterion includes a temperature of the purified fluid being within a range of 70°-95° Celsius. 6. The water purification apparatus according to claim 5 , further comprising a flow sensor arranged to measure a flow rate of the purified fluid, wherein the first temperature dependent disinfection criterion includes the purified fluid obtaining a predetermined temperature dependent flow rate. 7. The water purification apparatus according to claim 1 , wherein the polisher device is powered while the first temperature dependent disinfection criterion is fulfilled. 8. The water purification apparatus according to claim 1 , further comprising a temperature sensor arranged to measure a temperature of the purified fluid in the second fluid path, wherein the control unit is configured to: determine, based on the temperature measured by the temperature sensor, a time duration for heat disinfecting the second fluid path with the purified fluid at the temperature such that a bacterial reduction criterion is fulfilled, and control heat disinfection of the second fluid path based on the time duration to fulfill the bacterial reduction criterion. 9. The water purification apparatus according to claim 1 , wherein the control unit is configured to cause the water purification apparatus to: control the reverse osmosis pump to pump water from a water source to the reverse osmosis device until a predetermined cooling criterion for a reverse osmosis membrane of the reverse osmosis device has been fulfilled, and control the valve arrangement to drain reject fluid from the water purification apparatus. 10. The water purification apparatus according to claim 1 , wherein the water purification apparatus includes a second pump, and wherein the control unit is configured to cause the water purification apparatus to: control the second pump to pump air, and control the valve arrangement to direct the air past a closed port of the water purification apparatus in order to remove water from the port. 11. The water purification apparatus according to claim 1 , further comprising a second pump arranged for pumping a cleaning agent, wherein the control unit is configured to cause the water purification apparatus to: control the second pump to pump the cleaning agent into the feed fluid path, and circulate the cleaning agent in a reject recirculation path from the reject outlet to the feed inlet in order to remove scaling on a reverse osmosis membrane of the reverse osmosis device. 12. The water purification apparatus according to claim 1 , further comprising a disposable line set in fluid communication with the water purification apparatus, wherein the control unit is configured to cause the water purification apparatus to clean the disposable line set. 13. A method for cleaning a water purification apparatus configured to produce purified water, the water purification apparatus including a reverse osmosis device configured to produce a purified fluid flow and a reject fluid flow, the method comprising: controlling, via a control unit, heating of purified fluid produced by the reverse osmosis device downstream from the reverse osmosis device; directing, via the control unit, the heated purified fluid in a first fluid path through a polisher device; re-directing, via the control unit, the heated purified fluid into a second fluid path to bypass the polisher device in response to a first temperature dependent disinfection criterion for the polisher device being fulfilled, and controlling, via the control unit, heating of the re-directed purified fluid in order to fulfill a second temperature dependent disinfection criterion for the second fluid path. 14. The method according to claim 13 , wherein at least one of: the water purification apparatus includes a port in fluid communication with the second fluid path, the port being arranged to be connected to a fluid line set, and wherein the second temperature dependent disinfection criterion is a temperature dependent disinfection criterion for the port; and the second fluid path includes a drain path, and the second temperature dependent disinfection criterion is a temperature dependent disinfection criterion for the drain path. 15. The method according to claim 13 , wherein the polisher device includes at least one of an electrodeionization unit or a mixed bed filter device. 16. The method according to claim 13 , further comprising measuring, via a temperature sensor, a temperature of the purified fluid in the first fluid path, wherein the first temperature dependent disinfection criterion includes a temperature of the purified fluid being within a range of 70°-95° Celsius. 17. The method according to claim 16 , further comprising measuring, via a flow sensor, a flow rate of the purified fluid, wherein the first