In pulp, suspended hematite, magnetite particles, and other iron-containing impurities become more active at high temperatures, making them prone to agglomeration or sedimentation. This further increases the risk of equipment blockages. Therefore, the PTMS MAGNETIC SEPARATOR iron removal system must not only efficiently capture ferromagnetic materials but also demonstrate long-term resistance to chemical erosion, thermal stress cycles, and mechanical vibrations.
In this context, modern industrial PTMS MAGNETIC SEPARATOR iron removal systems predominantly adopt modular, detachable, and self-cleaning design concepts. Taking the vertical pipeline-type iron remover used in a large-scale alumina plant as an example, its core structure consists of three components: a corrosion-resistant casing, a detachable magnetic rod array, and a magnetic enhancement sleeve.
The PTMS MAGNETIC SEPARATOR casing features a dual-layer structure, with the outer layer made of 316L stainless steel and the inner lining using Hastelloy C-276 or titanium alloy. This design addresses intergranular corrosion and stress corrosion cracking caused by prolonged exposure to strong alkaline solutions. Although these applications differ in their objectives, they share a common pursuit of "extreme performance" and collectively drive advancements in novel magnetic materials, intelligent control systems, and multi-scale modeling methodologies.
Contact: DELLA
Mob: +86-13929907491
No.9, Factory 2, Shijin Industry Park, Shishan Town, Nanhai District, Foshan City, Guangdong, China
Ph: +86-13929907491
E-mail: Sales@powtechina.com
Preparation work before implementing PTMS MAGNETIC SEPARATOR energy-saving retrofit
