Development of a methodology for assessing the operational capacity of existing gas pipelines to improve the stability of Ukraine's energy system when transporting green hydrogen

Call Title: Science for the Reconstruction of Ukraine in the War and Post-War Periods

Project registration number: 2022.01/0099

Project implementation timeline: Wed, 03/01/2023 - 12:00 - Sat, 11/30/2024 - 12:00

Type of research (development): applied scientific research

Branch of science: Mathematical Analysis (01.01.01)

Priority direction of development of science and technology: information and communication technologies

Scientific direction by competition: materials, aerosols, technologies and means for absorbing and scattering electromagnetic radiation (in the air transparency ranges), built on innovative technical solutions

Institution/organization: Karpenko Physico-Mechanical InsInstitute of the National Academy of Sciences of Ukraine

Departmental subordination of the institution: National Academy of Sciences of Ukraine

Number of doctors of science: 4

Number of candidates of sciences: 1

Number of young scientists: 2

Ratio of leading and young scientists: 25:75

Number of support staff: 2

Average score according to expert assessment: 91.01

Keywords: resource-saving technologies, mineral raw materials, building materials, energy conservation, mobile equipment, processing complexes, development systems, product quality

Project goal: Development and justification of optimal parameters for resource-saving technology for the extraction and processing of non-metallic mineral raw materials for the production of building materials in the context of Ukraine's sustainable recovery and limited energy supply.

Project results: The project addresses an extremely important issue for Ukraine that arose during the war, and its negative consequences may continue to be felt for a long time in the post-war period, particularly for mining companies, which are the backbone of the construction industry, which supplies building materials that are essential for the restoration of destroyed critical infrastructure and residential and non-residential buildings. As a result of the proposed project, based on research into technologies for the extraction and processing of mineral raw materials, their scientific and practical justification, and technical and technological improvement in conditions of critical energy generation and distribution shortages, an innovative resource-saving technology for the effective development of non-metallic mineral raw material deposits will be developed as promising for implementation.