ABOUT THE PROGRAM OF TRANSITION TO LOW-CARBON FUELS IN THE POWER INDUSTRY OF THE REPUBLIC OF KAZAKHSTAN

  • А. А. Kalybai JSC «Kazakhstan Road Research Institute», st. Nurpeisova, 2A, Almaty, Kazakhstan
Keywords: power coal, carbon content, heat and completeness of combustion, ash content, volatiles, hydrogenated coal fuel, greenhouse gas, nanomaterials.

Abstract

The technology and composition of the equipment for the technological line of low-temperature (not higher than +75 ℃) hydroconversion of power-generating coal into high-calorie (heat of combustion 45 MJ/ kg, environmentally friendly (ash-free) liquid hydrogenated coal fuel (GUT) with a low carbon content (less than 45 wt.%), methods of combustion of GUT (fuel equipment and an innovative burner), means of capturing and utilizing greenhouse gases (plasma-chemical reactor) and production of nanomaterials (carbon, silicon, aluminum, titanium, etc.) steam coal GUT with low cost, high value added nanomaterials and implementing a technically efficient, environmentally friendly transition to low-carbon energy with zero greenhouse gas (GHG) emissions.

References

(1). Model of the world economy for the period of development 2001–2030. [Model’ mirovoj ekonomiki na period razvitiya 2001–2030 gody] https://www.iea.org/

(2). Low-carbon development strategy of Kazakhstan: goals and ways of transformation [Strategiya nizkouglerodnogo razvitiya Kazahstana: celi i puti transformacii] https://igtipc.org/images/docs/2020/550258684.pdf

(3). The concept of development of the coal industry of the Republic of Kazakhstan for the period up to 2020 [Koncepciya razvitiya ugol’noj promyshlennosti Respubliki Kazahstan na period do 2020 goda] https://primeminister.kz/public/ru

(4). Development Strategy of Kazakhstan until 2050 [Strategiya razvitiya Kazahstana do 2050 goda] https://primeminister.kz/public/ru

(5). Concept of the Republic of Kazakhstan on the transition to a «green economy» [Koncepciya Respubliki Kazahstan po perekhodu k «zelenoj ekonomike»] https://primeminister.kz/public/ru.

(6). Environmental Code of the Republic of Kazakhstan [Ekologicheskij kodeks Respubliki Kazahstan] https://www.gov.kz/memleket/entities/ecogeo/documents/details/188628?lang=ru

(7). United Nations Framework Convention on Climate Change [Ramochnaya konvenciya OON ob izmenenii klimata] https://www.un.org/ru/documents/decl_conv/conventions/climate_framework_conv.shtml

(8). UN Sustainable Development Goals (UN SDGs) [Celi v oblasti ustojchivogo razvitiya OON (CUR OON)] https://www.un.org/sustainabledevelopment/ru/sustainable-development-goals/

(9). Whiteheray DD, Mitchell TO, Farkashi M (1986) Liquefaction of coal [Ozhizheniya uglya] Сhemistry, Moscow, Russia. (in Russian)

(10). Alekseev AD, Vasilenko TA, Ulyanova EB (1999)Solid Fuel Chemistry [Himiya tverdogo topliva] 3:39-45. (In Russian). (in Russian)

(11). Khrennikov TM (1993) Mechanical activation of coal [Mekhanicheskaya aktivaciya uglej] Nedra, Moscow, Russia. (in Russian)

(12). Yutkin LA (1986) Electrohydraulic effect and its application in industry [Elektrogidravlicheskij effekt i ego primenenie v promyshlennosti] Mechanical engineering, Leningrad branch, Leningrad, USSR. (in Russian)

(13). Lastovkina GA, Radchenko ED, Rudina MG (1986) Refinery Handbook [Spravochnik neftepererabotchika] Сhemistry, Moscow, Russia. (in Russian)

(14). Kalybaev AA, Aspandiyarov BB (2002) Method of conversion of hydrocarbon raw materials [Sposob konversii uglevodorodnogo syr’ya] Innovative patent RK 11314. (in Russian)

(15). Krichko AA, Lebedev VV, Farberov IL (1978) Non-fuel use of coals [Netoplivnoe ispol’zovanie uglej] Nedra, Moscow, Russia. (in Russian)

(16). Kucher RV, Kompanets VA, Butuzova LF (1980) The structure of fossil coals and their ability to oxidize [Struktura iskopaemyh uglej i ih sposobnost’ k okisleniyu] Naukova Dumka, Kiev, Ukraine. (in Russian)

(17). Khrennikov TM (1993) Mechanochemical activation of coals [Mekhanohimicheskaya aktivaciya uglej] Nedra, Moscow, Russia. (in Russian)

(18). Golosov SM (1971) Mechanical phenomena during ultrafine grinding [Mekhanicheskie yavleniya pri sverhtonkom izmel’chenii] Science, Novosibirsk, SO AS USSR. (in Russian)

(19). Ivanov VV, Poplavko EM, Malevsky AYu (1998) Mineral raw materials. Directory [Mineral’noe syr’e. Spravochnik] ZAO «Geoinformmark», Moscow, Russia. (in Russian)

(20). Butyagin PYu Memories. P.A. Rebinder and advances in mechanochemistry [Vospominaniya: predvideniya P.A. Rebindera i uspekhi mekhanohimii] http://www.chemnet.ru/rus/history/Rehbinder/16.html (in Russian)

(21). Baubek A, Baubek N (2012) Device for burning hydrocarbon fuel [Ustrojstvo dlya szhiganiya uglevodorodnogo topliva] Patent for a utility model of the Russian Federation 128284.

(22). Baubek A, Baubek N (2016) Device for burning fuel, Patent of EP 2864700.

(23). Yakovenko IS, Kiverin AD, Korshunov AM, Kichatov BV (2019) JTP Letters [Pis’ma v ZHTF] 45(24):25-28. Crossref

Published
2021-12-25
How to Cite
KalybaiА. (2021). ABOUT THE PROGRAM OF TRANSITION TO LOW-CARBON FUELS IN THE POWER INDUSTRY OF THE REPUBLIC OF KAZAKHSTAN. Combustion and Plasma Chemistry, 19(4), 223-235. https://doi.org/10.18321/cpc460