
EXPLORING THE POSSIBILITIES OF SMART AND RENEWABLE TECHNOLOGIES FOR THE MODERNIZATION OF INDUSTRIAL HEAT POWER PLANTS
Author(s) -
Viktor Yu. Melnikov,
Olzhas Talipov,
Yuliya V. Kibartene,
Yermek Isenov
Publication year - 2021
Publication title -
vestnik torajgyrov universiteta. ènergetičeskaâ seriâ
Language(s) - English
Resource type - Journals
ISSN - 2710-3420
DOI - 10.48081/mhho1100
Subject(s) - renewable energy , electricity , modernization theory , efficient energy use , electric power , electricity generation , reliability (semiconductor) , electric power system , engineering , process engineering , computer science , electrical engineering , systems engineering , automotive engineering , power (physics) , physics , quantum mechanics , economics , economic growth
The article considers issues related to the modernization of energy technologies. To increase the efficiency of energy resources, operational reliability, loss reduction and environmental safety, the possibilities of trigeneration using fuel cells, hydrogen technologies and RES components, which is expedient to use for the production of additional electricity, are considered. The possibilities of innovative energy components for their integration into traditional power generation systems are shown, simulation schemes and calculation results are given. Modernization of the technological scheme of the traditional industrial thermal power system (ITPS), such as CHP type, to increase its efficiency to 55–65 %. Figure 1 shows the structure of the integrated system, which provides efficiency up to 55 to 65 %. In this integrated system, which makes full use of the available RES resources and other components adopted in the scheme in the figure, the increase in efficiency is achieved through two new factors: a more flexible, intelligent control of the flow of electric energy through the introduction of a new digital smart block «Flexible Electricity» and a new additional technological connection from this block to the block «Mobility», which carries out an effective supply of electric energy of all available mobile devices ITPS.