Complex Technology of Ash and Slag Waste from Power Plants

The development of a comprehensive technology for the processing of ash waste (ASW), which is based on the extraction of carbon from the CSO by flotation method and iron-containing minerals by means of magnetic separation, is presented. The proposed approach is based on the extraction of carbon from ash and slag by flotation and iron-containing minerals by magnetic separation. In this work, the optimal size of the ash fraction supplied for flotation was established. It is shown that when the technological process is carried out according to the stadium scheme when flotation reagents are fed in fractions, it allows their consumption to be reduced and the recovery of carbon concentrate from underburning to be significantly increased. The developed technology was tested on a pilot plant. High-quality carbon, iron-containing and aluminosilicate products were obtained. Auxiliary enrichment processes such as classification, thickening and filtration were tested.

1. Ryabov Yu.V., Delitsyn L.M., Ezhova N.N., Sudareva S.V. Methods for Beneficiation of Ash and Slag Waste from Coal-Fired Thermal Power Plants and Ways for Their Commercial Use (a Review). Thermal Engineering. 2019. Vol. 23. P. 149—168.

2. Blisset R.S., Rowson N.A. A review ofg the multi- component utilization of coal fly ash.Fuel. 2012. Vol. 97. P. 1—23.

3. Потапова Ю.В. Кузбассе назрела проблема утилизации (2016 год). Российская газета — Экономика сибири. 2016. №290 (7158). [Электронный ресурс]. URL: https://rg.ru/2016/12/22/reg-sibfo/vkuzbasse-nazrela-problema-utilizacii-zoloshlakovyhothodov.html (дата обращения 01.03.2021).

4. Микросфера — материал современных идей. Группа компаний ИНОТЭК. [Электронный ресурс]. URL: http://inoteck.net/mikrosfera_material_sovr (дата обращения: 01.03.2021).

5. Словаева Н. RockTron — решение проблемы золошлаковых отходов. Вестник. Строительство. Архитектура. Инфраструктура. 2012. № 7. [Электронный ресурс]. URL: http://www.vestnikstroy.ru/articles/infrastructure/435/ (дата обращения 01.03.2021).

6. Власов А.С., Бородина Т.И. и др. Флотация углерода из золы уноса Каширской ГРЭС. Обогащение руд. 2013. № 4. С. 35—39.

7. Ryabov Yu.V., Delitsyn L.M., Ezhova N.N. Flotation recovery of carbon from fly ash coal-fired power plants using mix of kerosene with gasoil. Obogashenie rud (Mineral Processing). 2016. No. 5. P. 48—54.

8. Ryabov Yu.V., Delitsyn L.M., Ezhova N.N., Lavrinenko А.А. PAV-2 conditioning agent application efficiency in flotation of unburned carbon from coalfired power plants fly ash. Obogashenie rud (Mineral Processing). 2018. No. 1. P. 43—49.

9. ГОСТ 25818-2017. Золы уноса тепловых электростанций для бетона. Технические условия. М., Стандартинформ, 2017. 20 с.

10. Федосеева С.О. Исследование и разработка рациональных схем флотации тонкодисперсных угольных шламов Материалы междунар. конф. Форум горняков-2013. 2—5 октября 2013 г. Днепропетровск, 2013. Т. 1. С. 230—237.

11. Рябов Ю.В., Делицын Л.М., Власов А.С., Голубев Ю.Н. Получение магнитных продуктов из золы Каширской ГРЭС. Обогащение руд. 2013. №4. С. 41—45.