DE102014013163A1 - Turbo Channel - Google Patents

Abstract

TC is a system for water purification using UV light. There are round reactor tubes used in the middle of each a burner is arranged with a cladding tube. Between the cladding tube and the inner wall is the rotating wing channel, which is driven by the water flowing through. Within the wing channel, the already irradiated water is transported upwards, under the inner reactor wall and thus forms a layer of already irradiated water. As a result of the further delivery of the irradiated water, this layer is pressed down again until it again reaches the cladding tube directly (here the radiation intensity is highest). The process starts again. The advantage: Extremely low energy consumption ensures systemically secured lethal radiation from all microorganisms flowing through.

Description

The invention relates to a water purification or sterilization system.

This is used in shipping, but also in other industrial areas.

The sterilization or purification of water is today a general requirement.

A common method for water sterilization is the use of UV light with a wavelength between 200-280 nm, which destroys the DNA of microorganisms or prevents new production.

Depending on the application and UV technology (low-pressure and medium-pressure lamps), the different UV systems on the market have high energy consumption.

With the turbo channel system (TC system) it is possible to reduce the previously required energy consumption of UV water sterilization.

The invention is described without illustration.

Conventional systems flood the mostly cylindrical water-bearing pipe (hereinafter referred to as reactor tube) with UV light. It should be noted that the radiation energy per cm distance from the UV lamp in the water decreases, which also reduces the lethal dose with each increasing distance of the lamp. As a result, conventional degerming systems often have to be equipped with a large number of UV lamps in order to be able to provide sufficient radiation energy in the reactor tube.

The result is a high energy consumption.

The function of the TC system is provided by a manifold integrated on the flange, which distributes the water to two or more reactor tubes. Due to the increasing volume over the reactor tubes, the flow rate is reduced, which increases the residence time in the reactor.

In each of the reactor tubes is centrally a UV lamp with cladding tube, which can be designed both as a low pressure and as a medium pressure lamp. The low pressure lamp is liquid cooled while the medium pressure lamp is convection cooled (air). Regardless of the type of UV lamp is located in the reactor tube a mehrflutiger channel that is shaped so that it is driven by the water flowing through. On the side that points in the direction of rotation, there is a window on the front, in the area of the cladding tube, while on the back there is a wiper lip, through which the irradiated water is led upwards through the channel, directly under the inner wall of the reactor tube , Thus, the already irradiated water has been transported to the uppermost layer. The permanently flowing, irradiated water thus ensures that the first described layer is forced further and further down to the cladding tube of the UV lamp until it comes to a second maximum irradiation dose. Subsequently, the now sterilized water on the opposite side, through the same distributor again off!

Claims (7)

Turbo channel, characterized in that each UV lamp is assigned a round reactor wall . The possible design can include from one to several reactor tubes. Turbo channel, characterized in that the actually required irradiation does not flood the entire reactor tube, but takes place only in a small sector above the cladding tube. Turbo channel, characterized in that a rotating in the reactor tube single or mehrflügeliger channel is driven by the water flowing through. Turbo channel characterized in that a rotating channel, that located on the cladding tube irradiated water transported up to the inner reactor tube wall . Turbo Channel, characterized in that the rotating channel is equipped with wiper strips that permanently clean both the cladding tube of the UV lamp, as well as the inner reactor wall. Turbo channel characterized in that the storage of the rotating channel can be carried out both on the inner cladding tube, as well as on the inner-lying reactor wall without external bearings. Turbo channel characterized in that several complete systems can be cascaded to achieve greater performance.