Hydrogen permeable metal membranes and gas separation installations based on them
COUNTRY OF ORIGIN
BelarusIDENTIFIER
BO6900PUBLISHED
2023-07-28LAST UPDATE
2023-07-28DEADLINE
Linked profile in other language
Responsible
Svetlana Markova
+375 29 752 8328
sveta_oms@itmo.by
+375 29 752 8328
sveta_oms@itmo.by
Summary
A.V.Luikov Heat and Mass Transfer Institute of the NAS of Belarus offers consumers hydrogen permeable metal membranes and gas separation installations under a manufacturing agreement, transfer of the software for simulating gas separation processes for various initial conditions under a license agreement and is looking for partners interested in a distribution services agreement.
Description
The separation of a hydrogen-containing mixture using continuous metal membranes is an efficient process that allows one to obtain both impurity gases and high-purity hydrogen.
A.V.Luikov Heat and Mass Transfer Institute of the NAS of Belarus developed flat and tubular (including capillary, 4 mm in diameter) configurations of membranes. Worked out methods for creating palladium-nickel, nickel membranes with a thickness of 80 microns.
To achieve maximum hydrogen permeability, the Institute fabricated binary nickel membranes with a total thickness of 90 µm, consisting of thin (10–15 µm) nonporous selective and porous structural layers of nickel.
In the developed nickel membranes, the activation energy is lower than in palladium-nickel membranes, as a result of which the rate of penetration of hydrogen into them is higher. At the same time, the production of nickel membranes is more economical, and capillary membranes have proven themselves well at high temperatures and pressures (up to 10 atm).
The Institute has created a gas separation installation, designed to study the processes of selection and concentration of components of hydrogen-containing gas mixtures. The installation uses several modules, prefabricated parallel or serial, while it can be implemented accumulative or flow mode. The productivity of the plant is 30–90 l/(m2∙h) depending on the selected mode.
The staff of the Laboratory of Physical and Chemical Hydrodynamics developed the "Membrane Gas Separation 1.0" (MGS v. 1.00) program, which allows simulating gas separation processes for various initial conditions, comparing theoretical calculations and experimental data, and making changes to the operation of the installation to achieve maximum efficiency in the process of separating hydrogen-containing gas mixtures.
Applications: chemical, petrochemical, pharmaceutical and food industries, biotechnology.
The Institute offers interested partners:
* a hydrogen permeable metal membranes and gas separation installations within the framework under a manufacturing agreement;
* computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a license agreement;
* computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a distribution services agreement.
More."Actual developments, research, measurements and tests" Catalog-2021, pp.33-34 (in Russian)
A.V.Luikov Heat and Mass Transfer Institute of the NAS of Belarus developed flat and tubular (including capillary, 4 mm in diameter) configurations of membranes. Worked out methods for creating palladium-nickel, nickel membranes with a thickness of 80 microns.
To achieve maximum hydrogen permeability, the Institute fabricated binary nickel membranes with a total thickness of 90 µm, consisting of thin (10–15 µm) nonporous selective and porous structural layers of nickel.
In the developed nickel membranes, the activation energy is lower than in palladium-nickel membranes, as a result of which the rate of penetration of hydrogen into them is higher. At the same time, the production of nickel membranes is more economical, and capillary membranes have proven themselves well at high temperatures and pressures (up to 10 atm).
The Institute has created a gas separation installation, designed to study the processes of selection and concentration of components of hydrogen-containing gas mixtures. The installation uses several modules, prefabricated parallel or serial, while it can be implemented accumulative or flow mode. The productivity of the plant is 30–90 l/(m2∙h) depending on the selected mode.
The staff of the Laboratory of Physical and Chemical Hydrodynamics developed the "Membrane Gas Separation 1.0" (MGS v. 1.00) program, which allows simulating gas separation processes for various initial conditions, comparing theoretical calculations and experimental data, and making changes to the operation of the installation to achieve maximum efficiency in the process of separating hydrogen-containing gas mixtures.
Applications: chemical, petrochemical, pharmaceutical and food industries, biotechnology.
The Institute offers interested partners:
* a hydrogen permeable metal membranes and gas separation installations within the framework under a manufacturing agreement;
* computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a license agreement;
* computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a distribution services agreement.
More."Actual developments, research, measurements and tests" Catalog-2021, pp.33-34 (in Russian)
Advantages and Innovations
Membrane advantages:
- production from nickel is economically more profitable;
- higher penetrating power;
- large temperature range (before 700°C).
The advantages of the developed membrane gas separation installation are:
- autonomy of work;
- high reliability;
- simplicity in service and a minimum of necessary service personnel;
- quick access to the operating mode;
- automatic mode of operation;
- long service life of membranes;
- modular design and high assembly readiness;
- compactness;
- ecological cleanliness;
- fire and explosion safety.
- production from nickel is economically more profitable;
- higher penetrating power;
- large temperature range (before 700°C).
The advantages of the developed membrane gas separation installation are:
- autonomy of work;
- high reliability;
- simplicity in service and a minimum of necessary service personnel;
- quick access to the operating mode;
- automatic mode of operation;
- long service life of membranes;
- modular design and high assembly readiness;
- compactness;
- ecological cleanliness;
- fire and explosion safety.
Stage of development
Already on the market
Comments regarding stage of development
On the developed gas separation installation, studies were carried out on the permeability of simple gases (He, СH4, N2) at pressures in the pressure channel from 2 to 6 atm. and temperatures up to 700 °C, which showed the impermeability of the nickel membrane to gases other than hydrogen.
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Patents granted
Secret know-how
Patents granted
Secret know-how
Comments regarding IPS status
Patent of the Republic of Belarus № 7690 dated 28.08.2011 "Membrane assembly for the separation of hydrogen from a mixture of gases".
Sector group
Aeronautics, Space and Dual-Use Technologies
BioChemTech
Intelligent Energy
Healthcare
Materials
Nano and micro technologies
BioChemTech
Intelligent Energy
Healthcare
Materials
Nano and micro technologies
Client information
Type
R&D institution
Year established
1952
NACE keywords
C.25.99 - Manufacture of other fabricated metal products n.e.c.
J.62.09 - Other information technology and computer service activities
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
J.62.09 - Other information technology and computer service activities
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
Turnover (in EUR)
1-10M
Already engaged in transnational cooperation
Yes
Additional comments
A.V.Luikov Heat and Mass Transfer Institute of the National Academy of Sciences of Belarus is the largest scientific institution in the republic dealing with the solution of fundamental and applied problems of heat and mass transfer, fluid dynamics, power engineering, heat engineering, chemical physics, physics of combustion and explosion, nanotechnology, as well as the creation of energy-efficient and environmentally friendly technologies and equipment, apparatus and devices for power engineering and mechanical engineering, agro-industrial complex and construction industry, medicine, chemical, electronic, radio engineering, food industry, space industry.
The Institute carries out scientific, scientific-organizational, and scientific-production interaction with academic and industrial research institutes, universities, design bureaus, associations, and enterprises of Belarus, Russia, Ukraine, Kazakhstan, Moldova, Uzbekistan, Lithuania, Latvia, China, USA, India, Germany, Poland , Czech Republic, Israel, Brazil, Italy, France, and other countries.
The Institute carries out scientific, scientific-organizational, and scientific-production interaction with academic and industrial research institutes, universities, design bureaus, associations, and enterprises of Belarus, Russia, Ukraine, Kazakhstan, Moldova, Uzbekistan, Lithuania, Latvia, China, USA, India, Germany, Poland , Czech Republic, Israel, Brazil, Italy, France, and other countries.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Distribution services agreement
License agreement
Manufacturing agreement
License agreement
Manufacturing agreement
Type and role of partner sought
Partners interested in purchasing hydrogen permeable metal membranes and gas separation installations under a manufacturing agreement.
Consumers interested in purchasing the computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a license agreement.
Partners in interested in purchasing the computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a distribution services agreement.
Consumers interested in purchasing the computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a license agreement.
Partners in interested in purchasing the computer program "Membrane gas separation 1.0" (MGS v. 1.00) under a distribution services agreement.
Type and size of partner sought
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
Attachments
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Статистика ведется с 28.07.2023 15:30:03
Статистика ведется с 28.07.2023 15:30:03