Photo: Water ApS
Mazzei Venturi virkemåde
Når vandtrykket kommer ind i venturi indløb, mod det mindre kammer, øges vandhastighed . Stigningen i hastighed ved det mindre kammer resulterer et fald i trykket, hvorved et tilsætningsstof (Gas) kan indløses i vandet på afgangssiden.
Rigtig indløsning af ozon I vand med Mazzei Injector.
Energieffektive.
Effektiv ozon indløsning
Leveres I Kynar PVDF. Klor og ozon modstandsdygtig Kynar PVDF.
Water ApS levere følgende produkter:
Mazzei Injector 1/ 2 “ Natural Kynar 484-A PVDF
Mazzei Injector 1/ 2 “ Natural Kynar 384 PVDF
Mazzei Injector 3/ 4 “ Natural Kynar 584 PVDF
Mazzei Injector 3/ 4 “ Natural Kynar 684 PVDF
Mazzei Injector 1" New Style Kynar 878 PVDF
How a Injector Works
When pressurized water enters the injector inlet, it is constricted toward the injection chamber and changes into a high-velocity jet stream. The increase in velocity through the injection chamber results in a decrease in pressure, thereby enabling an additive material to be drawn through the suction port and entrained into the water stream. As the jet stream is diffused toward the injector outlet, its velocity is reduced and it is reconverted into pressure energy (but at a pressure lower than injector inlet pressure).
Trouble-free, long life operation.
Energy efficient.
Efficient ozone mass transfer.
Molded in glass reinforced Polypropylene and natural Kynar PVDF.
Chlorine and ozone resistant PVDF.
Water ApS provide the following products :
Mazzei Injector 1/ 2 IN Natural Kynar 484-A PVDF
Mazzei Injector 1/ 2 IN Natural Kynar 384 PVDF
Mazzei Injector 3/ 4 IN Natural Kynar 584 PVDF
Mazzei Injector 3/ 4 IN Natural Kynar 684 PVDF
Mazzei Injector 1" New Style Kynar 878 PVDF
