Improving of boiler efficiency by controlling the CO concentration in the furnace cavity

• Autorzy: Szkarowski A. , Janta-Lipińska S.
• Języki publikacji: EN

Abstrakty

EN

Working for many years on theory and practice of effective and environment friendly fuel combustion, authors constantly promote the principle of energy - ecological optimisation [1]. Such approach means that optimum result of fuel combustion is qualified not only by direct efficiency of fuel consumption but also by minimal damage made to people and natural environment [2]. One of the simplest, cheapest and at the same time highly effective ways of such optimisation is the burning of fuel in a zone of controllable, remnant chemical underburn (RCU) [3, 9]. This may sound paradoxically for many specialists. Most boiler operation specialists are used to obey the unquestionable rule: products of non complete fuel combustion, especially when burning gas fuel, shall not be present in flue gases. This publication is intended to evaluate this question from the energy-ecological optimisation point of view, that is optimisation regarding fuel savings as well as environment protection.

Słowa kluczowe

EN

boiler efficiency; fuel combustion; ecological optimisation; environment protection

• Wydawca: Kielce University of Technology
• Czasopismo: Journal of New Technologies in Environmental Science
• Rocznik: 2017
• Tom: Vol. 1, nr 1
• Strony: 31--35
• Opis fizyczny: Bibliogr. 10 poz., rys.

Twórcy

autor

Szkarowski A.

• Koszalin University of Technology, Koszalin, Poland
• Saint-Petersburg State Polytechnical University, Russia

autor

Janta-Lipińska S.

• Koszalin University of Technology, Koszalin, Poland

Bibliografia

• [1] Szkarowski, A.: Estimation of modern tendencies in Environment Pollution. The Environment Protection. Ann. Set. Vol. 5, 2003. Koszalin. Poland: 67-78.
• [2] Novikov, O.; Artamonov, D.; Shkarowski, A.: Energy and ecological optimization of fuel combustion in boiler and furnace via regulation of fuel-air ratio. Energy Power Engineering 2000; 5: 57-60.
• [3] Baryshev, V.; Beloselskiy, B.; Zenkevich, L.; Shpolivskaya, L.: Decrease of nitrogen oxides emission via adjustable residual chemical underburn. Heating Engineering 1996; 4.
• [4] Trembovla, V.; Finger, E.; Avdeyeva, A.: Thermal Tests of Boilers. Moscow: Energoatomizdat, 1991.
• [5] Sigal, I.: Environment Protection at Fuel Burning. Leningrad: Nedra, 1988.
• [6] Bezrukih, V.: Choice of Optimum Parameters of a Gas-air Mix in Burners of Low Power Boilers for Fuel saving and Reduction Harmful Substances Emission. The thesis for a doctor's degree. Leningrad: LISI, 1988.
• [7] Komina, G.: Research of Products of Hydrocarbon Gases burning and Reduction Harmful Emissions. The thesis for a doctor's degree. Leningrad, 1971.
• [8] Szkarowski, A.; Nowikow, O.; Okatjew, A.; Kociergin, M.: The Intellectual System of a Combustion Quality Control. In Proceedings of IV National Polish Scientific Conference on Complex and Detailed Problems of Environmental Engineering. Koszalin-Ustronie Morskie, Poland, 2003: 117-126.
• [9] Szkarowski, A.; Janta-Lipińska, S.: Automatic Control of Burning Quality of Solid Fuel in Industrial Heating Boilers. Annual Set The Environment Protection. Vol. 11, 2009. Koszalin, s. 241-257.
• [10] Szkarowski, A.; Janta-Lipińska, S.: Examination of boiler operation energy-ecological indicators during fuel burning with controlled residual chemical underburn. Annual Set The Environment Protection. Vol. 15, 2013. Koszalin, s. 981-996.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).