Physico-chemical principles of creation of heterogeneous catalytic processes and catalysts for hydrogen production from renewable resources solid

Area of applications

Engineering centers and branches of industrial companies, which relate with the problems of hydrogen production from renewable resource solids.

Brief description

The main objective of the project is to study the fundamentals of converting organic waste streams into fuels and chemicals with improved catalytic materials based on metal and metal oxide nanoparticles.
The following processes will be evaluated: pyrolysis, cracking and steam reforming. These processes will allow us to convert organic waste into fuels and useful chemicals. The project will develop new methodologies for converting organic waste streams into valuable gas, liquid and solid products that can be used as fuels and chemical feedstocks.

Expected results

The project is targeted on the development of the effective catalyst for the hydrogen production from renewable resource solids.
The results of project can be also used under development of new ecologically processes for obtaining important chemicals.

Advantages

Performance of the project will allow to create of new effective catalyst for the hydrogen production from renewable resource solids.

Competitors

Center for Functional Nanomaterials,
Brookhaven National Laboratory,
USA

Project development

Previous studies have shown that the main problem of the catalytic conversion of "volatile" is a fast deactivation of catalysts. It was found that under certain process conditions in the presence of water vapor decontamination process catalysts significantly slowed down. The aim of the study was to optimize the conditions of steam reforming " volatile" and the development of efficient catalysts for the conversion in terms of steam reforming solid renewable raw materials and catalytic carbonization process in order to increase the release of gas from a primary hydrogen content . A study of steam reforming of flying directly into the process of carbonization of renewable raw materials and subsequent steam gasification in order to develop the technological conditions of catalytic gasification of solid renewable resources. The obtained results allow to specifically regulate the functional properties of multifunctional catalysts for steam reforming of Biomass " volatile " to optimize the conditions of the catalytic carbonization of biomass and its subsequent steam reforming , and thus improve the basic parameters of the process of producing hydrogen.

Intellectual property

Patent on useful model No 60805 Ukraine. Catalyst for the steam conversion of carbon monooxide process / Bucko I.B., Kalishyn Ye.Yu., Tripolsky A.I., Dolgih L.Yu., Deinega I.V., Strizhak P.E., Dydnik O.M., Sokolovska I.S.; owner: L.V. Pisarzhevsky Institute of Physical Chemistry of National Academy of Sciences of Ukraine; published. 25.06.2011, Bulletin No 12.
Patent on useful model No 60806 Ukraine. A method for the hydrogen production / Dolgih L.Yu., Tripolsky A.I., Kalishyn Ye.Yu., Bucko I.B., Deinega I.V., Strizhak P.E., Dydnik O.M., Sokolovska I.S.; owner: L.V. Pisarzhevsky Institute of Physical Chemistry of National Academy of Sciences of Ukraine; published. 25.06.2011, Bulletin No 12.

Contact information

ВExecutor: L.V. Pisarzhevsky Institute of Physical Chemistry of National Academy of Sciences of Ukraine

Project №4 “Physico-chemical principles of creation of heterogeneous catalytic processes and catalysts for hydrogen production from renewable resources solid”

Contact person:

Tripolsky Andry І.

Phone +38(044)-525-66-68

Е-mail:atripolski@gmail.com

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