RU2023681C1 - Running water aerator - Google Patents

Abstract

FIELD: environmental protection; mechanical engineering. SUBSTANCE: aerator incorporates air conduit to be positioned across river and auxiliary longitudinally disposed air conduits to which aerators are attached and communicate with air conduits via pipes. Each aerator is disc having central opening through which passes pipe terminating in gauze sprayer. Air ionizing unit is mounted on basic air conduit and air conduits are secured in position by pile anchors at certain depth. EFFECT: more sophisticated design. 3 dwg

Description

 The invention relates to the field of environmental protection, in particular to a device for aeration of fluid water.

 A device for increasing the oxygen concentration in running water is known, consisting of a pipe of complex configuration containing a nozzle, a neck and a diffuser, a flexible hose connected on one side to the neck, and on the other to the atmosphere, a float that holds the flexible hose to the surface. The device is held under water by the anchor [1].

 The disadvantages of this device are: the inability to use the device in the winter; floats on the surface of the water pose a danger to navigation; flexible hoses are traps of trash that will lead to flooding of floats and the termination of the device.

 The aim of the invention is to increase the efficiency of achrination of fluid waters.

 The goal is achieved by the fact that the main duct is laid across the longitudinal axis of the river. At certain intervals, longitudinal air ducts are connected to the main air duct and aerators are attached directly to them, to which air is supplied from the longitudinal air duct by means of tubes. The inlet of the main duct is located on its vertical part and an air ionization unit is installed on it. Ducts are fixed with pile anchors.

 The aerator is made in the form of a circular disk with a hole in the center through which a tube passes, connected at one end to the air duct, and its second end is located behind the disk and a mesh air atomizer is attached to it. Air supply pipes are placed along the river, aerators are installed on them, which increases the zone and efficiency of aeration of water.

 In FIG. 1 shows an aeration device installed in a river; in FIG. 2 - aerator, longitudinal section; in FIG. 3 - aeration device, longitudinal section.

 The device comprises a main duct 1 with an inlet 2 and an air ionization unit 3. Longitudinal air ducts 4 are connected to the main air duct 1 at regular intervals and aerators 5 are attached directly to them, to which air is supplied from the longitudinal air duct through tubes 6. The aerator disk 7, interrupting the movement of water, breaks water jets and creates a vacuum behind the disk in its center, where the mesh air atomizer 8 is located, which contributes to the suction of air from the longitudinal duct 4 through the tube 6 and the holes 9 through the mesh atomizer 8. For protection, the aerators are protected by a rod about 10. razhdeniem aerator disk diameter size is set depending on the water flow rate. The device is located at the bottom of the river. Ducts are fixed with pile anchors 11.

 The device operates as follows.

 The device is installed at the bottom of the river and secured with pile anchors 11. Air passing through the duct 1 through the inlet 2 and the air ionization unit 3 enters the longitudinal duct 4 and then into the aerator 5 through the tube 6. The aerator disk 7 prevents the movement of the water jet, breaks them, which creates a vacuum in the mesh spray 8.

 The rarefaction behind the disk contributes to the suction of air from the tube 6 and the longitudinal duct 4. The air passing through the mesh spray 8 is sprayed into smaller bubbles, enters the water and aerates it. The air passed through the ionization unit 3 improves the balance of positive and negative air ions in the air, which improves its quality and accelerates the healing of water.

 The advantages of the invention are in eliminating the possibility of clogging the aerator, using the device at any time of the year, using the kinetic energy of the river flow and increasing the efficiency of aeration of water.

Claims (1)

 A LIQUID WATER AERATOR containing an air duct located in the river and aerators connected to it by tubes, characterized in that, in order to increase the efficiency of the aeration process of fluid water, the air duct is located across the river and provided with additional air ducts located along the river to which the aerators are connected in the form of disks with holes in the center through which the tubes are passed, the outlet ends of the tubes are located behind the aerator disks and are equipped with atomizers, the device is equipped with an ionization unit, mounted on the inlet end of the duct, pile anchors securing the ducts, and a bar fence for aerators.

Images