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Instalación para producir materiales nanocompuestos permselectivos funcionalizados

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TORO20180814003
Publicado:
29/08/2018
Caducidad:
30/08/2019
Resumen:
Un instituto de investigación rumano ha desarrollado una instalación piloto para producir materiales nanocompuestos permselectivos funcionalizados. La instalación permite producir una amplia variedad de materiales con características estructurales, electroconductoras e hidrodinámicas reproducibles. La construcción es modular y tiene un funcionamiento y mantenimiento sencillos. Los materiales producidos se emplean en procesos de baromembranas, así como en procesos electroquímicos para bioseparación y bioensayos. El instituto busca una empresa interesada en la construcción a escala industrial de la instalación y de un equipo basado en membranas. El objetivo es establecer acuerdos de cooperación técnica y comercialización con asistencia técnica.

Details

Tittle:
Installation for producing functionalized nanocomposite permselective materials
Summary:
A Romanian research institute has developed a pilot installation for producing functionalised nanocomposite permselective materials. The institute is looking for a company interested in the industrial scale construction of the installation and the construction of membrane-based equipment for the purpose of commercialization, under a technical cooperation or commercial agreement with technical assistance.
Description:
The installation allows a wide range of such materials, with reproducible structural, electroconductive and hydrodynamic characteristics. In most modern technologies that have in their phases the separation of various compounds from liquid media, classical filtration has been replaced by processes that have as a central element of separation a nanomaterial permselective material known as the membrane. Transport phenomena, flowing into porous media, separation under environmental and environmental conditions, and a wealth of practical applications have made the membrane field grow at an exponential rate. It is the natural consequence of the optimal ratio between the technical and economic factors that characterize the membrane processes:
· technical factors: selectivity of separation, reliability of technologies and related facilities, product quality, productivity and energy consumption;
· economic factors: the cost of installations and equipment, the cost of operation and maintenance, the price of the final product.
The main advantage of membrane processes is the ability to separate thermolabile compounds, since separations are carried out at ambient temperature. Thus, the problems of separation and concentration of compounds whose properties related to the structure and implicitly to the mode of action are irreversibly altered at a certain temperature are solved. In the last time, the use of membrane processes has been imposed (at the expense of classical separation / concentration processes) in the following areas: -biotechnologies - for the separation and concentration of biologically active compounds from existing complex mixtures in plant extracts, processing of biosynthetic environments, concentration of fruit juices, removal of microbiological load from wine (cold sterilization, without sulphites addition, etc);- treatment of surface or deep water for the purpose of potable water;
-take of drinking water in sea water through reverse osmosis;
The installation for continuous flow of nanocomposite materials comprises the following subassemblies (figure 1):
- the film generation module (1) - the coagulation tank (2)
- the reaction tank (3) - the thermostate module (4)
- the coagulation solution feed module (5) - the reaction mixture feeding module (6) - the wastewater collecting an neutralization tank (7). The nanocomposite membranes were achieved by successively following the following stages of the technological flow: in the first step, the polymer is dissolved in the solvent, after this the adjuvants needed to adjust the viscosity are added to the solution; the final solution obtained is filtered and de-aerated; this is introduced into the film generation module, after which the process of forming the membrane begins by applying the polymeric solution to the polyester support, immersing the polymer film in the coagulation bath, passing the membrane formed in the reaction vessel in which the composite membrane is made, the washing and finally the conditioning of the obtained membrane.
- industrial wastewater treatment;
-cleaning of levigates generated by municipal landfills.
The technical problem solved by the invention consists in development of an installation for producing functionalized nanocomposite permselective materials with overlapped polymeric structures. The materials are resulting from the chemical reaction forming of one polymer into the training process network through a physical process of another chemically inert polymer by phase inversion. Electroconductive and hydrodynamic characteristics are reproducible and usable both for baromembrane processes as well as in electrochemical processes for bioseparation and bioassay. A Romanian research institute is looking for a company interested in the industrial scale construction of the installation for the purpose of commercialization for technical and research cooperation agreement with technical assistance.
Advantages and Innovations:
The installation and technology used has the following advantages:
- is producing the functionalized nanocomposite permselective materials with reproducible electrically hydrodynamic and structural characteristics
- modular construction, simple, easy to operate and serviced
- is allowing production of functionalized nanocomposite permselective materials, with various characteristics, in the same cycle of operation.
The installation is designed for producing functionalized nanocomposite permselective materials, usable both for baromembrane processes as well as in electrochemical processes for bioseparation and bioassay; it is solving the problems related to the fact that the multilayer permselective materials obtained using other technologies consist of two or more layers physically deposited on each other, with applicability in most cases restricted to the field of barometric processes.
Stage of Development:
Prototype available for demonstration
IPs:
Secret Know-how,Patents granted
CommeR Statunts Regarding IPR Status:
This technology is protected by the patent released on 30.09.2014:
Title: "INSTALLATION FOR PRODUCING FUNCTIONALIZED NANOCOMPOSITE PERMSELECTIVE MATERIALS"
· Patent number: RO 126195-B1
· Priority Application Data: 07.07.2010

Partner sought

Type and Role of Partner Sought:
A Romanian research institute is looking for a company interested in the industrial scale construction of the installation and the construction of membrane-based equipment for the purpose of commercialization for technical and research cooperation agreement with technical assistance.

Client

Type and Size of Client:
Industry SME 50-249
Already Engaged in Trans-National Cooperation:
No
Languages Spoken:
English

Keywords

Technology Keywords:
02007005 Composite materials
006002003 Enzymology/Protein Engineering/Fermentation
02007014 Plastics, Polymers
05004001 Procesos de filtración y con membranas
05001001 Química analítica