Purpose of the development: It is a magnetically controlled biosorbent (MUBS) based on Saccharomyces cerevisiae which is a dry method and it is used for ferrometry fragments of ferromagnetic ferrite metals. (VGFN). It was shown that the results of the magnitude of the magnetic susceptibility were corrected by the magnitude of the magnetic field. MBLS, smaller than for a dry produced by mechanical agitation. The compounds of the process of water can be investigated. It has been shown that it has been experimentally shown. Bottom of the chemical properties of the microorganism A HMMS was studied.

Recommended application field: Enterprises and organizations of various industries: engineering, instrument making, metallurgy, electrical industry, where electroplating technology is widespread and the problem of wastewater treatment from heavy metal ions is acute.

Advantages over analogues: The research results correspond to the world level and exceed them. The obtained dry magnetically controlled biosorbent can be stored for a long time. The designed unit is unique because the magnetically controlled biosorbent obtained with its use surpasses the world analogues in its quality.

The development stage readiness: Introduced in production

Technical and economic effect: The use of the developed technologies and equipment can significantly reduce the cost by 30% and improve the quality of the dry magnetically controlled biosorbent.

Description of the development:
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A new method of manufacturing a dry magnetically controlled biosorbent (MUBS) based on Saccharomyces cerevisiae using a magnetic fluid with magnetic susceptibility, sufficient for efficient extraction of the biosorbent from the liquid stream contaminated with heavy metal ions, high gradient magnetic separators (HGMS), the efficiency of which is determined by the structure of high gradient ferrometry ferrous ferromag nite ferrometry fragments of ferromagnetic ferrite metals. (VGFN). The results showed that the value of the range of changes in the magnitude of magnetic susceptibility for dry MUSD, produced by the method of magnetohydrodynamic mixing (MHDF) in crossed magnetic and electric fields based on the yeast S. cerevisiae, is an order of magnitude smaller than for a dry MBLS, produced by mechanical agitation. The mechanisms of intensification of the process of sorption of heavy metal ions by dry MUBS for the purification of waste water from heavy metal ions are investigated. It has been experimentally shown that the sorption capacity of a magnetically controlled biosorbent with respect to Cu2 + cations made by MGDP in crossed electric and magnetic fields is 30% more than in a magnetically controlled biosorbent made by mechanical mixing. The efficiency of the process of biosorption of heavy metal ions by dry MUBS, the mechanisms of binding magnetic nanoparticles with biosorbent cells based on the yeast S. cerevisiae in mechanical and MHD with magnetic fluid was studied and the stability of the magnetic properties of the dry biosorbent was investigated and the efficiency of extracting spent dry MUPS with the help of HMMS with HBF was investigated.

Information about newness of the development:
there are Ukrainian patents -- 3 items

corresponds technical description
Guarantees stable results getting

Possibility of transfer abroad:
Creation of joint enterprise
Joint production, sale, exploitation

Photo

Country Ukraine

For additional information turn to:
E-mail: gal@uintei.kiev.ua