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Updating of mass-dimensioning indexes of the hydrogen storage metal-hydride systems
The hydrogen storage metal-hydride system.
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Area of applications
Updating of the methodology intended for calculating the hydrogen storage metal-hydride systems to choose the most perspective hydride creative materials or their compositions with the aim of their use in these systems.
Summary
The technological recommendations are given as to carrying into effect of the working metal-hydride intended for the hydrogen storage systems to increase efficiency of their operation.
Expected properties
There was improved the methodology of calculation of the thermo-chemical and thermodynamics processes. In comparing to the well-known ones this methodology gives the possibility for more exact calculating the hydrogen storage metal-hydride systems operation as well as: - for making the optimal choice of hydride materials to be used in these systems; - for determining the structural parameters of the main basic elements and the mode parameters of their operation. It will result in creating the real pre-conditions to reduce the organic fuel volumes, and hence, to decrease the level of technogenic influence on an environment.
The well-known competitors
Implementation of the proposed methodology for calculating the thermal- sorption processes in the metal-hydride systems gives the possibility for getting the results, which will be applied for updating the operation characteristics and for increasing the energy efficiency of the existent hydrogen systems that use hydrogen as a working body.
Competitors
GfE (Gesellschaft fur Elektrometallurgie mbH) (Germany);
Japan Metals & Chemicals Co., Ltd (Japan);
The Japa Steel Works, Ltd (Japan);
LABTECH Int. Co. Ltd (Bulgaria).
The improved methodology has been developed to calculate the complicated thermo-chemical and thermodynamic processes taking place in the hydrogen systems with the use of metal-hydrides at the terms of presence of internal and external non-inversible of the working processes with the aim to choose the most perspective hydrides with necessary thermal- sorption characteristics for the hydrogen storage metal-hydride systems.
Stage of development
Methodology will be improved to choose the perspective hydrides, having necessary thermal- sorption characteristics, to be used in the hydrogen storage systems, as well as recommendations will be given out in relation to carrying the hydride alloys into effect. The developed theory will be used to design the samples of the metal-hydride technique intended for the complex processing of hydrogen.
Intellectual property
Patent of Ukraine № 103681 МПК С25В 1/12, С25В 1/03. The Device for Generation High-pressure Hydrogen /V. Solovey, A. Shevchenko, A. Kotenko, O. Makarov, It was made public on November 11/2013, Bulletin № 21.-7p.
Patent of Ukraine № 111675 МПК F01K 23/06, F01K 13/00, F02C 6/18. The Power-generating Unit of the Electrical Station with the Peak Superstructure / Y.Matsevity; V. Goloschapov; A. Shubenko; V. Solovey; A. Rusanov. It was made public on May 25/2016, Bulletin № 10.-7p.
Patent of Ukraine № 110369 МПК F01K 3/06, F01K 7/22, F01K 7/34. Steam Turbine and Method to Create the Peak Power at the Power-generating Units of the Thermal Electrical Stations / Y.Matsevity; V. Goloschapov; A. Shubenko; V. Solovey; A. Rusanov // Application 07.10.2013; It was made public on December 25/2015, Bulletin № 24. – 12 p.
Contact information
Executing : A.M. Pidhorny Institute of Mechanical Engineering Problems of National Academy of Sciences of Ukraine.
Project 14 «Updating of mass-dimensioning indexes of the hydrogen storage metal-hydride systems».
Project leader:
Matsevit Yury M.
academician of NASU,
Project Manager
Tel. +38 057 349-47-24
Fax. +38-057 94-46-35
Е-mail: admi@ipmach.kharkov.ua
Solovey Victor V.
Responsible Project Executor,
Doctor of Technical Science, Professor,
Chief of the Hydrogen Energetics Department
Tel. +38 057 294-28-11
Е-mail:solovey@ipmach.kharkov.ua
Chernaya Natalia A.
responsible executive,
PhD, senior researcher of the Hydrogen Energetics Department.
Tel. +38 057 349-47-86
Е-mail: chernaya-nata@mail.ru
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