Patented Technology
Revolutionary municipal wastewater management
Overview.
Integrated Spatial Bacterial Succession, or ISBS, is our patented technology. When treating municipal wastewater, we use bacterial metabolism to remove organic and inorganic pollutants, using immobilized bacteria and suspended growth bioreactors.
Technology.
The ISBS process (Integrated Spatial Bacterial Succession) provides efficient innovative patented biological solutions to wastewater treatment tasks.
The first objective of the ISBS technology is to provide an efficient electronically controlled biological wastewater treatment system.
The second objective of the ISBS technology is to provide extended accessibility of nutrients to microorganisms used for wastewater treatment.
The third objective of ISBS technology is the application of a specially adapted biofilter and air dispersion system, which allows this multi-step process maximum access of nutrients to microorganisms and to maintain a large concentration of active biomass.
The basic principle of this technology is the formation of the three-dimensional hydrobionic sequence (ISBS) in a well-barbuted continuous flow bioreactor using fixed biomass and a well-controlled aeration system.
The integrated spatial bacterial sequence is microbiocenosis suspended in the reactor liquid medium and fixed on a multilayer inert biocarrier (M.I.C.). The ISBS in the reactor is formed by using TOP (Three-D Original Package) bio-clusters. The biological wastewater treatment process is carried out in an aerobic bioreactor with continuous flow through the TOP bio-clusters.
The patented multilayer inert carrier allows microorganisms to form a three-dimensional space filled with immobilized and suspended hydrobionts (ISBS), this is a major component of the three-dimensional original package – bio cluster TOP.
The number of original three-dimensional packages in a bioreactor is determined by the parameters of the inlet water and the quality requirements of the discharge water.
Complete biological treatment of wastewater, including nitrification, denitrification and stabilization of aerobic biomass, is carried out by the genetic composition of the hydrobionts fixed on the multilayer inert carrier. The necessary conditions for the existence of the fixed biological forms, which assimilate organic and inorganic pollution without a "cumulative increment" of biomass (stationary process), are created through the environment in the bio-clusters.
Layout Drawing.
Integrated Spatial Bacterial Succession (ISBS)
Water sample data with our technology.
Where our technology replaces traditional systems.
