Method of controlling the volume of combustion products at different boiler loads
/ 0
- Details
- Category: Content №1 2024
- Last Updated on 29 February 2024
- Published on 30 November -0001
- Hits: 2940
Authors:
V.Kryvda*, orcid.org/0000-0002-0930-1163, Odesa Polytechnic National University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
O.Brunetkin, orcid.org/0000-0002-6701-8737, Odesa Polytechnic National University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
K.Beglov, orcid.org/0000-0002-5277-2577, Odesa Polytechnic National University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
T.Markolenko, orcid.org/0000-0002-3639-2232, Odesa Polytechnic National University, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
I.Lutsenko, orcid.org/0000-0001-6406-2364, Dnipro University of Technology, Dnipro, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
* Corresponding author e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2024, (1): 100 - 104
https://doi.org/10.33271/nvngu/2024-1/100
Abstract:
Purpose. Development of a method for controlling the volume of combustion products at different load of boiler equipment. Achieving the objective may allow controlling the flue gas temperature and, consequently, the efficiency to increase it.
Methodology. Control of the flue gas volume value on the basis of determining the appropriate composition of the fuel gas mixture.
Findings. The effect of flue gas temperature increase at use of fuel gases of lower calorific value and increase in ballast gases quantity is revealed. The latter can be the air used as an oxidising agent at its considerable excess. The mechanism of such an effect due to the increase in the quantity and velocity of flue gases is suggested. A parameter determining the volume of flue gases produced per unit calorific value of various fuel gases is proposed. On the basis of this parameter the method for calculating the composition of the mixture of different gases to ensure the constancy of the flue gas volume at variable load is proposed
Originality. On the example of the results of verification thermal calculation the change in flue gas temperature and efficiency value is considered. The non-standard character of their change is revealed. In contrast to the case of using fuel gas of constant composition with increasing load, the temperature of flue gases remained close to constant, and the value of efficiency increased.
Practical value. The obtained results indicate the possibility of controlling the flue gas temperature and boiler efficiency at a given load. This allows one, unlike the case of using fuel gas of constant composition, to increase the efficiency exactly at maximum load avoiding getting into the condensate mode at minimum load. There is a possibility to save fossil gas and, consequently, to reduce the greenhouse share in CO2 emissions.
Keywords: gas mixture, boiler efficiency, flue gas temperature, flue gas volume
References.
1. UN website. Solutions/ClimateAction. The Paris Agreement (n.d.). Retrieved from https://www.un.org/ru/climatechange/paris-agreement#.
2. Deutschland importiert immer mehr Strom (06.09.2023). Retrieved from https://www.dw.com/de/deutschland-importiert-immer-mehr-strom/a-66735523.
3. European Parliament website (n.d.). Press room/Taxonomy: MEPs do not object to inclusion of gas and nuclear activities. Retrieved from https://www.europarl.europa.eu/news/en/press-room/20220701IPR34365/taxonomy-meps-do-not-object-to-inclusion-of-gas-and-nuclear-activities.
4. Qatar supplies gas to Europe, vying with US to replace Russia supply (2023). Retrieved from https://www.reuters.com/markets/commodities/qatarenergy-shell-agree-27-year-lng-supply-2023-10-18/.
5. Soroka, B. S., Vorobyev, N. V., & Bershadsky, A. I. (2016). Natural Gas Saving by Replacement the Last for Process Gases while Heating Middle and High Temperature Furnaces. Part 1. Influence of Low-Calorie Gases Characteristics on Fuel Flow Rate in Furnaces. Energy technologies and resource saving, 1, 11-22.
6. Soroka, B. S., Vorobyev, N. V., & Karabchievskaya, R. S. (2016). Natural Gas Saving by Replacement the Last for Process Gases While Heating Middle and High Temperature Furaces. Part 2. Numerical Determination of Fuel Flow Rate, of Fuel Use Energy and Environmental Characterstics by Assignment of Fuel Type and Composition. Energy Technologies and Resource Saving, 2, 3-13.
7. Pylypenko, R., Smiyan, B., Tsvetkov, S., Pikashov, V., Melnikov, R., & Logvinenko, D. (2022). Substitution Of Natural Gas And Mixtures Of Process Gases. Energy Technologies & Resource Saving, 1, 24-32. https://doi.org/10.33070/etars.1.2022.03.
8. Vries, H., & Levinsky, H. (2019). Flashback, burning velocities and hydrogen admixture: Domestic appliance approval, gas regulation and appliance development. Applied Energy, 259, 114116. https://doi.org/10.1016/j.apenergy.2019.114116.
9. Demchenko, V.G. (2011). Ways to increase the efficiency of boiler design. Hirnycha Elektromechanika ta Avtomatika, 87, 155-159.
10. Bălănescu, D., & Homutescu, V. (2018). Experimental investigation on performance of a condensing boiler and economic evaluation in real operating conditions. Applied Thermal Engineering, 143, 48-58. https://doi.org/10.1016/j.applthermaleng.2018.07.082.
11. Taler, J., Trojan, M., Dzierwa, P., Kaczmarski, K., Węglowski, B., Taler, D., …, & Jaremkiewicz, M. (2023). The flexible boiler operation in a wide range of load changes with considering the strength and environmental restrictions. Energy, 263, B, 125745. https://doi.org/10.1016/j.energy.2022.125745.
12. Sigal, I. Ya., Smikhula, A. V., Marasin, O. V., & Lavrentsov, E. M. (2015). The increasing duration of operation of boiler houses and heat electro power stations above 12 MW in Ukraine. Energy Technologies and Resource Saving, 3, 46-53.
13. Bezhan, V., & Zhitarenko, V. (2020). Modeling and Analysis of Energy Efficiency Parameters of Medium Pressure Boilers Using a Mixture of Natural and Blast Furnace Gases Taking into Account Air Intakes. NTU “KhPI” Bulletin: Power and Heat Engineering Processes and Equipment, (2), 32-39. https://doi.org/10.20998/2078-774X.2020.02.05.
Newer news items:
- Gross regional product in Ukraine: two-dimensional analysis of regularities and territorial features - 29/02/2024 15:00
- Organizational and legal principles of information security of enterprises in the conditions of martial law in Ukraine - 29/02/2024 15:00
- Modeling arithmetic systems of elliptic curve cryptography using Microsoft Excel VBA - 29/02/2024 15:00
- Implementation of corporate social responsibility in the context of integration with the enterprise management information system - 29/02/2024 15:00
- Improvement of the method of time rationing for assembling car groups on one track - 29/02/2024 15:00
- Digital economy: opportunities for transformation of entepreneurial structures - 29/02/2024 15:00
- Two-stage problems of optimal location and distribution of the humanitarian logistics system’s structural subdivisions - 29/02/2024 15:00
- Modeling pH changes and electrical conductivity in surface water as a result of mining activities - 29/02/2024 15:00
- Stochastic models of work and rest schedules - 29/02/2024 15:00
- Enhancement of sorption of the azoic dye (Azucryl Red) by natural and calcined hyper-aluminous kaolins - 29/02/2024 15:00
Older news items:
- An overview of hydrogen production via reforming from natural gas - 29/02/2024 15:00
- Heuristic control of power consumption by up to 1000 V electrical loads at mining enterprises - 29/02/2024 15:00
- Justification of geodetic monitoring methodology of the retaining walls on the example of the embankment in Kremenchuk - 29/02/2024 15:00
- Heat exchange under the longitudinal movement of wet steam in finning heat exchangers - 29/02/2024 15:00
- Testing the fragmentation of railway ballast material by laboratory methods using Proctor compactor - 29/02/2024 15:00
- Advantages of using CONCRETE CANVAS materials in railway track construction - 29/02/2024 15:00
- Scientific bases and peculiarities of conversion of CHPP anthracite boilers to sub-bituminous coal combustion - 29/02/2024 15:00
- Influence of ice structure on vitability of frozen sand-water and sand-clay mixtures - 29/02/2024 15:00
- Improvement of the methodology for calculating the expected drilling speed with PDC chisels - 29/02/2024 15:00
- Influence of the rock mass structure and the blasting technique on blast results in the Heliopolis quarry - 29/02/2024 15:00
