Providing of technological norm on oxides of sulphur for steam boilersat thermal power stations

Thermal power plants (TPPs) burn more than 30% of the produced fuel. Also this fuel is worst in quality. This is usually either high-ash or high-moisture, often high-sulfur coal, or waste from oil refining and associated petroleum gas. If the main fuel at the plant is natural gas, then fuel oil farms are still being built to create a fuel reserve. But even if a gas-oil plant uses only a small part of fuel oil in its fuel balance, the permissible environmental impact is calculated on the maximum use of the dirtiest fuel, i.e. fuel oil. Thus, thermal power plants are either active or potential sources of nitrogen oxide emissions. PURPOSE. Development of methods for decreasing sulfur emissions without installing special desulphurization equipment in the exhaust gas path. In some cases, this is possible if the absorption capacity of the alkaline components of solid fuel ash or the dosing of slaked lime into fuel oil is used to control the permissible emission of solid particles in the absence of ash collectors on gas-and-oil boilers. The developed METHODOLOGY will allow us to trace the entire chain of necessary actions based on the fuel composition before selecting the main parameters of the proposed methods. RESULTS. The formulas for calculating the required degree of purification of combustion products are proposed. Methods decrease sulfur oxides emissions in domestic equipment using for pulverized coal boilers. Solution allows to decrease oxide emissions for boilers that burn fuel oil and do not have ash traps.

1. Air Quality guidelines for particulate matter. Ozone, Nitrogen, Dioxide, Sulfur Dioxide. / Bulletin of the World Health Organization/1211 Geneva 27 Switzerland, 2005, 31 p.

2. Vallero D. Fundamentals of Air Pollution. 4th edition. Elsevier. 2014. 986 p.

3. Sulfur dioxide emissions United States 2019 | Statista / 2021, P. 5 [Electronic resource]: www.statista.com/statistics/501303/volume-of-sulfur-dioxide-emissions-us/.

4. Zroichikov NA, Gribkov АМ, Perfiljev АО, et al. Study of the effect of sulfur content in fuel on efficiency and environmental safety of boiler operation in combustion of non-projected fuel. Alternative Energy and Ecology № 01-03(249-251). 2018;01-03(249-251):103-117.

5. GOSTR 55173-2012. The Boilerplants. General technical requirements. М.: FGUPStandartinform, 2014, 20 p.

6. Directive 2010/75/EU of the European parlament and the countil. Oficisl Journal of the European Union. L 334/17. 2010.103 p.

7. Thermal calculation of boilers (Regulatory method). Edited by С.И. Mothjanet al., St. Petersburg, Publishing House RAO UES of Russia , 1998. 259 p.

8. RD 34.02.305-98. Methodology for determining the gross emissions of pollutants into the atmosphere from boiler plants of TPPs. М.: PMBAll-Union Heat Engineering Institute, 1999. 38 p.

9. Аbramov В.В, et al. Modern environmental technologies in the electric power industry: Information collection. Under the general editorship В.Я. Putilov. М.: Publishing House Moscow Power Engineering Institute, 2007. 388 p.

10. Best Available Techniques (BAT) Reference Document for Large Combustion Plants. Joint Research Centre. 2016. 940 p.

11. Makansi J. Understand system effekts when evaluating sorbent injection. Power. 1985;129(6):35–39.

12. Kotler VR, GrachovSP. The combined method of decrease emissionsSO 2 и NOx thermal power plants. Energy management abroad. 1991;6:23-25.

13. Order of the Ministry of Natural Resources of Russia from 06.06.2017 N 273 About the approval of methods of calculations dispersion emissions of harmful (polluting) substances in atmospheric air (Registered with the Ministry of Justice of Russia 0.08.2017 N 47734), 2017. 81 p.

14. Zvereva ER, Farrachov ТМ. Energy-saving technologies and devices of thermal power plants when working on fuel oil. Edited by. А.Г. Laptev. М.: Heat engineer. 2012. 180 p.

15. Zvereva ER, Dmitriev AV, Shageev MF and Akhmetvalieva GR. Results of Industrial Tests of Carbonate Additive to Fuel Oil. Heat and power Engineering. 2017;8:50-56.

16. Dmitriev AV, Sinurov ВЭ, Dmitrievа ОС, NguenVu L. Cleaning of gas emissions from boiler plants from solid particles. News of Higher Educational Institutions. Energy Sector Problems , 2020;22(1):pp. 3-9.