Abstract: The present invention relates to a method for dosing reagents in water disinfection plants, wherein said method comprises adding said reagents in said plants in amounts defined on the basis of a parameter established a priori as a function of the following parameters: plant volume and/or frequency of use of the plant and/or characteristics of the fresh water introduced therein, said amounts being corrected with a correction factor established following a comparison carried out between the levels of said reagents as actually measured in circulation and reference values.

Abstract: A sanitary warm water system comprises an annular water duct, a pump, a heater, withdrawing ducts connected to the annular duct and a supply duct, a monochloramine generator which synthesizes and adds monochloramine to the warm water in the annular duct at a disinfection point, an ammonium ion abatement device which adds chlorine or hypochlorites to the warm water in the annular duct, an ammonium detector which detects the concentration of ammonium ions in the warm water and a control system which activates the monochloramine generator and activates the ammonium ion abatement device and controls the addition of chlorine or hypochlorite as a function of the ammonium concentration signals, independently of the activation of the monochloramine generator.

Abstract: A sanitary warm water system comprises an annular water duct, a pump, a heater, withdrawing ducts connected to the annular duct and a supply duct, a monochloramine generator which synthesises and adds monochloramine to the warm water in the annular duct at a disinfection point, an ammonium ion abatement device which adds chlorine or hypochlorites to the warm water in the annular duct, an ammonium detector which detects the concentration of ammonium ions in the warm water and a control system which activates the monochloramine generator and activates the ammonium ion abatement device and controls the addition of chlorine or hypochlorite as a function of the ammonium concentration signals, independently of the activation of the monochloramine generator.

Abstract: A method for disinfecting hot water, in recirculating systems, includes producing monochloramine directly in hot water, at a temperature higher than 30° C. in a hot water circulating system The method is implemented by an apparatus for disinfecting hot water, in recirculating systems, having a main hot water circuit, one or more water delivery points and a water feed point, adapted to maintain the circulating water volume constant, a drawing point, where a portion of water of the main circuit is drawn and an intake point where water added with monochloramine is reintroduced into the main circuit; and an adding circuit formed between the drawing point and the intake point; the adding circuit has a control and adding system, adapted to add monochloramine producing reagents to the hot water.

Abstract: A method for disinfecting hot water, in recirculating systems, includes producing monochloramine directly in hot water, at a temperature higher than 30° C. in a hot water circulating system The method is implemented by an apparatus for disinfecting hot water, in recirculating systems, having a main hot water circuit, one or more water delivery points and a water feed point, adapted to maintain the circulating water volume constant, a drawing point, where a portion of water of the main circuit is drawn and an intake point where water added with monochloramine is reintroduced into the main circuit; and an adding circuit formed between the drawing point and the intake point; the adding circuit has a control and adding system, adapted to add monochloramine producing reagents to the hot water.