Energy efficiency assessment of coal processing plant waste processing

The chemical composition and amount of waste from coal preparation plants are analyzed. The main characteristics of gasification gas under various conditions of fuel combustion are studied. The impact of the carbon content in the waste on the main characteristics of the gasification process is estimated. The analysis of the influence of various properties of the gas generated as a result of gasification on the heat engineering parameters of the process of its combustion for the needs of the consumer is carried out. The studies were carried out on the basis of a program for calculating the process of fuel combustion, waste gasification and afterburning of gasification products. Studies have shown that gasification is the most promising way to use waste from coal processing plants compared to burning. When choosing the most effective way to use the chemical energy of carboncontaining waste, it is necessary to take into account such factors as: the carbon content in the waste, the temperature of the combustion air; ratio of N₂ to O₂ in air.

carbon-containing waste, coal gasification, chemical energy of carbon-containing waste,

1. Аналитический центр при Правительстве Российской Федерации. ТЭК России, Москва, 2015. ― С. 1‒64.

2. https://www.rosteplo.ru/Tech_stat/stat_shablon.php?id=3932; Ростепло, Газификация угля: возврат в прошлое или шаг в будущее?

3. https://www.imemo.ru/files/File/ru/conf/2019/21012019/21012019-Prezent-01.pdf; ИМЭМОРАН, World Economic Situation and Prospects 2019.

4. https://www.bp.com/content/dam/bp/business-sites/en/global/corporate/pdfs/energy-economics/energy-outlook/bp-energy-outlook-2017.pdf; BP Global. «BP Energy Outlook» 2017.

5. https://www.bp.com/content/dam/bp/business-sites/en/global/corporate/pdfs/energy-economics/statistical-review/bp-stats-review-2019-full-report.pdf; BP Statistical Review of World Energy, 2019.

6. Панова, В. Ф. Отходы углеобогащения как сырье для получения строительных материалов / В. Ф. Панова, С. А. Панов // Вестник СибГИУ. ― 2015. ― № 2 (12). ― С. 71‒75.

7. Панова, В. Ф. Техногенные продукты как сырье для стройиндустрии / В. Ф. Панова. ― Новокузнецк : СибГИУ, 2009. ― 244 с.

8. Дворкин, О. Л. Строительные материалы из отходов промышленности : учебно-справочное пособие / О. Л. Дворкин, Л. И. Дворкин. ― Ростов на Дону : Феникс, 2007. ― 368 с.

9. Панишев, Н. В. Перспективы утилизации хвостов углеобогащения и твердых отходов тепловых электростанций / Н. В. Панишев, В. А. Бигеев, Е. С. Галиулина // Теория и технология металлургического производства. ― 2015. ― № 2 (17). ― С. 69‒77.

10. https://minenergo.gov.ru/node/433; Министерство энергетики РФ. Об отрасли. Основные показатели.

11. https://minenergo.gov.ru/activity/statistic ; Министерство энергетики РФ. Статистика.

12. http://butane.chem.uiuc.edu/pshapley/environmental/l5/1.html; University of Illinois at Urbana-Champaign, Coal Gasification.

13. https://www.usea.org/sites/default/files/102013_Challenges%20and%20opportunities%20for%20coal%20gasification%20in%20developing%20countries_ccc225.pdf ; IEA Clean Coal Centre, Challenges And Opportunities For Coal Gasification In Developing Countries, CCC/225, 2013.

14. https://oilprice.com/Energy/Coal/Carbon-Hysteria-AndThe-Benefits-Of-Coal-Gasification.html; oilprice, Carbon Hysteria and The Benefits of Coal Gasification.

15. Gregurek, Dean. The Minerals, Meallurgy: Energy and Environmental Issues, Metals & Materials Society / Dean Gregurek, Zhiwei Peng, Phillip J. Mackey and Christine Wenzl.

16. https://www.ncbi.nlm.nih.gov/books/NBK44142/ ; The National Center for Biotechnology Information, Carbon Management: Implications for R&D in the Chemical Sciences and Technology : A Workshop Report to the Chemical Sciences Roundtable.

17. https://www.sciencedirect.com/topics/engineering/carbon-based-fuel; Sciencedirect, Carbon-Based Fuel.

18. Гафуров, Н. М. Современные методы газификации угля / Н. М. Гафуров, Р. Ф. Хисматуллин // Международный научный журнал «Инновационная Наука». ― 2016. ― № 5. ― С. 60, 61.

19. Пряткина, В. С. Газификация угля и ее применение в энергетике / В. С. Пряткина, А. А. Белов, В. В. Иванов [и др.] // Изв. вузов. Северо-Кавказский регион. ― 2018. ― № 3. ― С. 42‒47.

20. https://www.energy.gov/eere/fuelcells/hydrogenproduction-coal-gasification; energy.gov, Hydrogen Production: Coal Gasification.