Results of Experimental Research on Microflame Burners for Hot Water Boilers and Gas Turbines

Energies Pub Date : 2024-07-11 DOI:10.3390/en17143408
Hristo I. Beloev, Abay Dostiyarov, N. Sarakeshova, A. Makzumova, Iliya K. Iliev
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Abstract

The study aims to address the need for cleaner and more efficient combustion technologies in the context of global energy demand and sustainability goals. It focuses on microflame techniques to enhance the performance of gas turbines and water heating boilers. This research investigated, for the first time, the operation of a micromodular burner for hot water boilers and a microflame burner for gas turbines, based on patented inventions. Methods for assessing efficiency included analyzing heat flows, fuel conversion rates to thermal energy, and emission analysis. Using high-precision measuring equipment, such as TESTO 350-XL, thermocouples, flow meters, and others, optimal operating modes were determined for the gas turbine combustion chamber and hot water boiler. This resulted in achieving high efficiency and reducing harmful emission levels (NOx < 15 ppm, CO < 140 ppm). Theoretical calculations were compared with experimental data, confirming the reliability of the results obtained.
热水锅炉和燃气轮机微焰燃烧器的实验研究成果
该研究旨在满足全球能源需求和可持续发展目标对更清洁、更高效燃烧技术的需求。研究重点关注微火焰技术,以提高燃气轮机和热水锅炉的性能。这项研究首次调查了基于专利发明的热水锅炉微模块燃烧器和燃气轮机微火焰燃烧器的运行情况。评估效率的方法包括分析热流、燃料热能转换率和排放分析。利用 TESTO 350-XL、热电偶、流量计等高精度测量设备,确定了燃气轮机燃烧室和热水锅炉的最佳运行模式。这不仅实现了高效率,还降低了有害气体的排放水平(氮氧化物 < 15 ppm,一氧化碳 < 140 ppm)。理论计算结果与实验数据进行了比较,证实了所得结果的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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