RU2016134821A

RU2016134821A - ELECTROLYZER WITH ANODE ANNOUNCER LIFTING DEVICE

Info

Publication number: RU2016134821A
Application number: RU2016134821A
Authority: RU
Inventors: Фредерик БРЭН; Ив РОШЕ; Стив Ренодье
Original assignee: Рио Тинто Алкан Интернэшнл Лимитед
Priority date: 2014-01-27
Filing date: 2015-01-23
Publication date: 2018-03-02
Also published as: BR112016015625B1; DK179216B1; EP3099840A1; BR112016015625A2; EP3099840A4; CN105940146B; CA2935439C; FR3016895B1; EP3099840B1; FR3016895A1; WO2015110901A1; CA2935439A1; RU2016134821A3; DK201670537A1; CN105940146A; AU2015208855B2; AU2015208855A1; RU2684025C2

Claims

1. An electrolyzer suitable for the production of aluminum, comprising a casing (1) with a bottom (10) and transverse and longitudinal side walls (11, 12), while the casing (1) is covered with a lining (13) designed to hold the cryolite bath (14) ), and many anode assemblies (3), each of which includes an anode structure (32) and at least one anode (31) immersed in a cryolite bath, while the cell further comprises a plurality of casing passing along the longitudinal side walls (1) ) lifting devices (6) for moving the anode nodes (3), moreover, these lifting devices include a power cylinder (61) formed by the housing (611) and the rod (612) extending along the longitudinal axis (B-B '), and the anode receiver (62), designed to receive one end of the anode structure (32), wherein the power cylinder (61) is connected to the anode receiver (62) for communicating to it translational movement along the displacement axis (T-T ') between the retracted position and the extended position, characterized in that the longitudinal axis (B-B') of the power cylinder (61 ) is parallel to the axis of movement (T-T ') of the anode receiver (62) and does not coincide with it.

2. The electrolyzer according to claim 1, in which the lifting devices include a transverse connecting beam (63) between the rod (612) of the power cylinder (61) and the anode receiver (62), preferably extending along a transverse axis perpendicular to the longitudinal axis (B-B ') of the power cylinder (61).

3. The electrolyzer according to claim 2, in which the assembly consisting of a rod (612) of the power cylinder, a connecting beam (63) and an anode receiver (62) forms a U-shaped structure.

4. The cell according to any one of paragraphs. 2 or 3, in which the connecting beam (63) is mounted interconnected with the rod (612) of the power cylinder (61), and the connecting beam (63) is mounted interconnected with the anode receiver (62).

5. The cell according to any one of the preceding paragraphs, in which the anode receiver (62) includes a rod (621) extending along the axis of movement (T-T ').

6. The electrolyzer according to claim 5, in which the anode receiver (62) includes a socket (622) at one of the ends of the rod (621), designed to receive the end of the anode structure (32).

7. The electrolyzer according to claim 6, further comprising a fastening system for fixing the anode structure (32) in the socket (622).

8. The electrolyzer according to claim 7, in which the fastening system includes means for pressing the anode structure (32) to the socket (622).

9. The electrolyzer according to any one of paragraphs. 5-7, in which a portion of the rod (621) is electrically connected to flexible electrically conductive means to provide power to each anode assembly (3).

10. The electrolyzer according to any one of paragraphs. 5-8, in which the rod (621) has a rectangular or square section.

11. The electrolyzer according to any one of the preceding paragraphs, further comprising guides (64) of the anode receiver (62) for guiding the movement of the anode receiver (62) along the axis of movement (T-T ').

12. The electrolyzer according to claim 11, in which the guides (64) at least partially surround the anode receiver (62) and set the sliding path of the anode receiver (62).

13. The electrolyzer according to any one of the preceding paragraphs, in which the lifting device is attached to the electrolyzer in such a way that the axis of movement (T-T ') of each anode receiver (62) is vertical.

14. The cell according to any one of the preceding paragraphs, in which each anode structure (32) runs transversely in the cell and is connected to a corresponding pair of lifting devices placed along opposite longitudinal side walls of the casing (1), each of which carries one of the ends of the anode constructions (32).

15. The electrolyzer according to claim 14, further comprising a controller connected to the lifting devices for controlling the synchronous movement of the lifting devices of each pair.

16. The electrolyzer according to any one of the preceding paragraphs, which further includes a shelter (2) based on the casing (1), while the shelter (2) has transverse (21) and longitudinal (22) side walls, the shelter (2) is intended to limit the volume of gas retention above the cryolite bath (14), with each lifting device (6) attached to one of the longitudinal side walls of the shelter (2).

17. The electrolyzer according to claim 16, in which the side walls (21, 22) of the shelter (2) are offset outward relative to the side walls (11, 12) of the casing (1), so that the said side walls (21, 22) of the shelter (2) pass around and above the side walls (11, 12) of the casing (1), while the side walls (11, 12, 21, 22) of the casing (1) and the shelter (2) are mechanically connected via an annular ledge, and the anode receivers (62) are lifting devices pass through holes made in this ledge.

18. The electrolyzer according to claim 17, in which the axis of movement T-T 'is vertical, and the anode receivers (62) are able to translate vertically through holes made in the ledge.

19. The electrolyzer according to any one of paragraphs. 17 or 18, in which the anode receivers (62) pass through the shelter (2) through the dynamic ring seals.

20. The electrolyzer according to any one of paragraphs. 16-19, in which each lifting device is attached to the upper edge of the shelter (2), opposite the casing (1), so that the housing of the power cylinder of each lifting device is located higher in height than the height of the cryolite bath.

21. The electrolyzer according to claim 20, in which each lifting device (6) is attached to the upper edge of the shelter (2) with the free end (613) of the power cylinder (61) so that said free end (613) is further from the bottom (10) the casing (1) than the rod (612) of the power cylinder (61).

22. The electrolyzer according to any one of the preceding paragraphs, in which each power cylinder extends out of the electrolyzer.

23. The electrolyzer according to any one of the preceding paragraphs, which further includes a gas collection device (5), comprising at least one gas collecting box extending along the upper edge of the longitudinal side walls (22) of the shelter (2) and having suction openings for sucking gas, each lifting device (6) is attached to said gas collecting box.