公开(公告)号：US20150115511A1

公开(公告)日：2015-04-30

申请号：US14361066

申请日：2012-11-30

Applicant: OUTOTEC OYJ

Inventor： Mari Lindgren ,  Peter Björklund ,  Mikael Jåfs ,  Lauri P. Pesonen

IPC: F27D9/00 ,  F28F21/08 ,  B23K26/30 ,  C23C26/00 ,  B23K26/00 ,  C22C19/05

CPC classification number: F27D9/00 ,  B23K26/352 ,  C22C19/051 ,  C23C24/106 ,  C23C26/00 ,  F27D2009/0056 ,  F28F21/089

Abstract: The invention relates to a cooling element for a pyrometallurgical furnace such as for a flash smelting furnace or for a flash converting furnace or for a suspension smelting furnace. The invention relates also to a method for manufacturing a cooling element for a pyrometallurgical furnace such as for a flash smelting furnace or for a flash converting furnace or for a suspension smelting furnace. The cooling element (2) has a fire surface (2) to be in contact with an interior of the metallurgical furnace. The cooling element comprises a base element (4) containing copper and a coating (5) at least partly covering the base element (4). The coating (4) forms the fire surface (2) of the cooling element (1). The coating (5) is at least partly applied by a laser coating process such as laser deposition, and the coating (5) contains a Ni based alloy.

Abstract translation: 本发明涉及一种用于火法冶金炉的冷却元件，例如闪蒸熔炼炉或闪蒸转炉或悬浮熔炼炉。 本发明还涉及一种用于制造用于火法冶金炉的冷却元件的方法，例如用于闪蒸熔炼炉或闪光转换炉或用于悬浮熔炼炉的冷却元件。 冷却元件（2）具有与冶金炉内部接触的防火表面（2）。 冷却元件包括含铜的基体元件（4）和至少部分地覆盖基体元件（4）的涂层（5）。 涂层（4）形成冷却元件（1）的火表面（2）。 涂层（5）至少部分地通过诸如激光沉积的激光涂覆工艺来施加，并且涂层（5）含有Ni基合金。

公开(公告)号：US09957586B2

公开(公告)日：2018-05-01

申请号：US14666691

申请日：2015-03-24

Applicant: Outotec Oyj

Inventor： Jussi Sipilä ,  Markku Lahtinen ,  Peter Björklund ,  Kaarle Peltoniemi ,  Tapio Ahokainen ,  Lauri P. Pesonen ,  Kaj Eklund

IPC: C22B5/14 ,  F27B15/10 ,  F27B15/14 ,  F27D3/16 ,  C22B5/12 ,  C22B15/00 ,  F27D3/18

CPC classification number: C22B5/14 ,  C22B5/12 ,  C22B15/00 ,  F27B15/10 ,  F27B15/14 ,  F27D3/16 ,  F27D3/18

Abstract: The invention relates to a method of using a suspension smelting furnace and to a suspension smelting furnace and to a concentrate burner (4). The concentrate burner (4) comprises a first gas supply device (12) for feeding a first gas (5) into the reaction shaft (2) and a second gas supply device (18) for feeding a second gas (16) into the reaction shaft (2). The first gas supply device (12) comprises a first annular discharge opening (14), which which is arranged concentrically with the mouth (8) of a feeder pipe (7), so that the first annular discharge opening (14) surrounds the feeder pipe (7). The second gas supply device (18) comprises a second annular discharge opening (17), which is arranged concentrically with the mouth (8) of the feeder pipe (7), so that the second annular discharge opening (17) surrounds the feeder pipe (7) opening (14).