The lack of systematic iron removal databases and process packages, coupled with the absence of standardized operational protocols and parameter models, has hindered large-scale development. Future efforts should prioritize the development of novel PTMS ELECTROMAGNETIC SEPARATOR-based iron removal systems that are both efficient and eco-friendly, with a focus on designing green ligands for iron ions that exhibit high selectivity, strong stability, and easy recovery.
Meanwhile, we are exploring integrated application of supercritical fluids with other purification technologies in PTMS ELECTROMAGNETIC SEPARATOR systems. By filling extraction vessels with ion exchange resins or activated carbon, we establish an integrated "extraction-adsorption" system to enhance iron removal efficiency. Furthermore, leveraging artificial intelligence and big data analytics, we develop intelligent optimization models for process parameters. This enables dynamic regulation of variables such as temperature, pressure, and flow rate, thereby improving system stability and automation levels.
Through the combined use of chelating agents, process optimization, and multi-technology integration, a novel, efficient, clean, and controllable supercritical PTMS ELECTROMAGNETIC SEPARATOR iron removal method is expected to be developed. Its low-temperature operation (typically below 80°C) makes it particularly suitable for heat-sensitive systems such as natural medicines, food additives, and enzyme preparations, effectively preventing the degradation or structural damage of active components caused by high temperatures.
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
High temperature PTMS MAGNETIC SEPARATOR deironing method is gradually moving towards new nano electrode materials
