Disclosed is an automatic descaling system for high-pressure reactor of laterite nickel ore, which comprises a high-pressure reactor, multiple mixing devices, multiple detection devices, and a scale removal assembly; within the reactor, multiple partition plates are arranged sequentially along the material flow direction, dividing the internal cavity of the reactor into multiple compartments. Multiple mixing devices are correspondingly installed within the multiple compartments, and multiple detection devices are correspondingly installed in the multiple compartments as well. The scale removal assembly comprises an acid storage tank, multiple first connecting pipes, and multiple first control valves. Multiple first control valves are correspondingly installed on the multiple first connecting pipes. This disclosure finely adjusts the amount of acid injected based on the thickness of the scale, not only achieving a better descaling effect but also correspondingly reducing the usage of acid, thereby lowering the production costs for enterprises.

Disclosed is an automatic descaling system for high-pressure reactor of laterite nickel ore, which comprises a high-pressure reactor, multiple mixing devices, multiple detection devices, and a scale removal assembly; within the reactor, multiple partition plates are arranged sequentially along the material flow direction, dividing the internal cavity of the reactor into multiple compartments. Multiple mixing devices are correspondingly installed within the multiple compartments, and multiple detection devices are correspondingly installed in the multiple compartments as well. The scale removal assembly comprises an acid storage tank, multiple first connecting pipes, and multiple first control valves. Multiple first control valves are correspondingly installed on the multiple first connecting pipes. This disclosure finely adjusts the amount of acid injected based on the thickness of the scale, not only achieving a better descaling effect but also correspondingly reducing the usage of acid, thereby lowering the production costs for enterprises.

Disclosed is an automatic descaling system for high-pressure reactor of laterite nickel ore, which comprises a high-pressure reactor, multiple mixing devices, multiple detection devices, and a scale removal assembly; within the reactor, multiple partition plates are arranged sequentially along the material flow direction, dividing the internal cavity of the reactor into multiple compartments. Multiple mixing devices are correspondingly installed within the multiple compartments, and multiple detection devices are correspondingly installed in the multiple compartments as well. The scale removal assembly comprises an acid storage tank, multiple first connecting pipes, and multiple first control valves. Multiple first control valves are correspondingly installed on the multiple first connecting pipes. This disclosure finely adjusts the amount of acid injected based on the thickness of the scale, not only achieving a better descaling effect but also correspondingly reducing the usage of acid, thereby lowering the production costs for enterprises.

An acidic treatment liquid processing apparatus includes: a tank having an interior space; a diaphragm permeable to a metal cation and separating the interior space of the tank into a first chamber and a second chamber; a first electrode disposed in the first chamber; a second electrode disposed in the second chamber; a power supply configured to apply a voltage while using the first electrode as an anode and the second electrode as a cathode; a first liquid passing part configured to pass an acidic treatment liquid containing a dichromate ion and a metal cation into the first chamber; and a second liquid passing part configured to pass an acid aqueous solution into the second chamber.

A method comprising: prior to commissioning of a processing equipment into service, cleaning and/or passivating a contact surface of the processing equipment with a vapor comprising a chemistry and a carrier, wherein cleaning comprises removing one or more contaminants from the contact surface and wherein passivating comprises creating a passive film on the contact surface. A method of vapor phase descaling is also provided.