TY  - JOUR
AU  - Saljnikov, Aleksandar
AU  - Vučićević, Biljana S.
AU  - Komatina, Mirko
AU  - Gojak, Milan
AU  - Goricanec, Darko
AU  - Stevanović, Zoran
PY  - 2009
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/3805
AB  - This paper deals with thermal radiation characteristics of ash deposits on a pulverized coal combustion boiler of an electric power plant. Normal emittance spectra in the near to medium infrared (2.5-25 mu m) region and total normal emittances were measured on four kinds of ground ash deposits. Measurements were conducted in the 570-1460 K temperature range which is common for boiler furnaces, by both heating and cooling the ash samples, with the aim to study the effect of their thermal history. Dependence of emittance on wavelength, temperature and chemical composition was studied, too. Samples were tested for transparency (opacity) to verify the accuracy of results. It was determined that the thicknesses used for the ash powders are opaque for infrared radiation for thicknesses in the order of a millimeter. Tests have shown that spectral emittance increases with an increase of wavelength with a characteristic pattern common for all samples. Spectral normal emittance increases strongly with temperature at shorter wavelengths and remains high and unchanged at longer ones. Emittance spectra are not very sensitive to chemical composition of ashes especially beyond lambda approximate to 5 mu m. With an increase of temperature, total emittance of the powdered sample decreases to a minimum value around 1200 K. Further temperature rise induces an increase of total emittance due to sintering in the ash. On cooling, the emittance increases monotonically following the hysteresis. Quantitative directions for evaluating thermal radiation characteristics of ash deposits for the merits of the safety design of boiler furnaces were proposed. That comprises correlating the experimentally obtained emittance spectra with curves of simple analytical form, i.e., a continuous function of minimum emittance vs. wavelength. The proposed method can be extended to other specimens from the same furnace and used to determine correlations for thermal calculation of old and design of new furnaces - with similar geometry and combusting similar coal. The method is potentially applicable to completely different boiler furnaces combusting different coal, and the authors recommend running the tests with new deposit samples. The data will then be applicable to the thermal design of a whole new class of furnaces, having similar geometry and combusting similar coal. This is expected to greatly enhance the accuracy and precision of thermal calculation as well as the efficiency of thermal design of steam boilers. (C) 2009 Elsevier Inc. All rights reserved.
T2  - Experimental Thermal and Fluid Science
T1  - Spectroscopic research on infrared emittance of coal ash deposits
VL  - 33
IS  - 8
SP  - 1133
EP  - 1141
DO  - 10.1016/j.expthermflusci.2009.07.002
ER  - 

@article{
author = "Saljnikov, Aleksandar and Vučićević, Biljana S. and Komatina, Mirko and Gojak, Milan and Goricanec, Darko and Stevanović, Zoran",
year = "2009",
abstract = "This paper deals with thermal radiation characteristics of ash deposits on a pulverized coal combustion boiler of an electric power plant. Normal emittance spectra in the near to medium infrared (2.5-25 mu m) region and total normal emittances were measured on four kinds of ground ash deposits. Measurements were conducted in the 570-1460 K temperature range which is common for boiler furnaces, by both heating and cooling the ash samples, with the aim to study the effect of their thermal history. Dependence of emittance on wavelength, temperature and chemical composition was studied, too. Samples were tested for transparency (opacity) to verify the accuracy of results. It was determined that the thicknesses used for the ash powders are opaque for infrared radiation for thicknesses in the order of a millimeter. Tests have shown that spectral emittance increases with an increase of wavelength with a characteristic pattern common for all samples. Spectral normal emittance increases strongly with temperature at shorter wavelengths and remains high and unchanged at longer ones. Emittance spectra are not very sensitive to chemical composition of ashes especially beyond lambda approximate to 5 mu m. With an increase of temperature, total emittance of the powdered sample decreases to a minimum value around 1200 K. Further temperature rise induces an increase of total emittance due to sintering in the ash. On cooling, the emittance increases monotonically following the hysteresis. Quantitative directions for evaluating thermal radiation characteristics of ash deposits for the merits of the safety design of boiler furnaces were proposed. That comprises correlating the experimentally obtained emittance spectra with curves of simple analytical form, i.e., a continuous function of minimum emittance vs. wavelength. The proposed method can be extended to other specimens from the same furnace and used to determine correlations for thermal calculation of old and design of new furnaces - with similar geometry and combusting similar coal. The method is potentially applicable to completely different boiler furnaces combusting different coal, and the authors recommend running the tests with new deposit samples. The data will then be applicable to the thermal design of a whole new class of furnaces, having similar geometry and combusting similar coal. This is expected to greatly enhance the accuracy and precision of thermal calculation as well as the efficiency of thermal design of steam boilers. (C) 2009 Elsevier Inc. All rights reserved.",
journal = "Experimental Thermal and Fluid Science",
title = "Spectroscopic research on infrared emittance of coal ash deposits",
volume = "33",
number = "8",
pages = "1133-1141",
doi = "10.1016/j.expthermflusci.2009.07.002"
}

Saljnikov, A., Vučićević, B. S., Komatina, M., Gojak, M., Goricanec, D.,& Stevanović, Z.. (2009). Spectroscopic research on infrared emittance of coal ash deposits. in Experimental Thermal and Fluid Science, 33(8), 1133-1141.
https://doi.org/10.1016/j.expthermflusci.2009.07.002

Saljnikov A, Vučićević BS, Komatina M, Gojak M, Goricanec D, Stevanović Z. Spectroscopic research on infrared emittance of coal ash deposits. in Experimental Thermal and Fluid Science. 2009;33(8):1133-1141.
doi:10.1016/j.expthermflusci.2009.07.002 .

Saljnikov, Aleksandar, Vučićević, Biljana S., Komatina, Mirko, Gojak, Milan, Goricanec, Darko, Stevanović, Zoran, "Spectroscopic research on infrared emittance of coal ash deposits" in Experimental Thermal and Fluid Science, 33, no. 8 (2009):1133-1141,
https://doi.org/10.1016/j.expthermflusci.2009.07.002 . .

TY  - JOUR
AU  - Saljnikov, Aleksandar
AU  - Oka, Simeon N.
AU  - Stevanović, Žarko M.
PY  - 2007
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/3430
AB  - A mathematical and numerical model of pulverized coal combustion in wide-range-use furnaces with swirl burners, i.e., within a turbulent particle-laden swirl flow in axisymmetric geometry is presented. The model is based on the k-epsilon model, considering the presence of the solid phase via the additional source terms in the gas phase equations. The disperse phase is treated through the history of particular particles by using the Lagrangian Stochastic Deterministic model. Devolatilization, homogeneous and heterogeneous chemical reaction processes are modeled via the global combustion model using own reaction kinetics data. The model was used to perform an analysis of influence of flow parameters and coal characteristics upon combustion in a wide-range-use furnace. The model was verified by comparing computational and experimental results for combustion of polydisperse pulverized coal in an experimental furnace.
T2  - Heat Transfer Research
T1  - Mathematical model of combustion in particulate 2-phase flow
VL  - 38
IS  - 4
SP  - 299
EP  - 312
DO  - 10.1615/HeatTransRes.v38.i4.20
ER  - 

@article{
author = "Saljnikov, Aleksandar and Oka, Simeon N. and Stevanović, Žarko M.",
year = "2007",
abstract = "A mathematical and numerical model of pulverized coal combustion in wide-range-use furnaces with swirl burners, i.e., within a turbulent particle-laden swirl flow in axisymmetric geometry is presented. The model is based on the k-epsilon model, considering the presence of the solid phase via the additional source terms in the gas phase equations. The disperse phase is treated through the history of particular particles by using the Lagrangian Stochastic Deterministic model. Devolatilization, homogeneous and heterogeneous chemical reaction processes are modeled via the global combustion model using own reaction kinetics data. The model was used to perform an analysis of influence of flow parameters and coal characteristics upon combustion in a wide-range-use furnace. The model was verified by comparing computational and experimental results for combustion of polydisperse pulverized coal in an experimental furnace.",
journal = "Heat Transfer Research",
title = "Mathematical model of combustion in particulate 2-phase flow",
volume = "38",
number = "4",
pages = "299-312",
doi = "10.1615/HeatTransRes.v38.i4.20"
}

Saljnikov, A., Oka, S. N.,& Stevanović, Ž. M.. (2007). Mathematical model of combustion in particulate 2-phase flow. in Heat Transfer Research, 38(4), 299-312.
https://doi.org/10.1615/HeatTransRes.v38.i4.20

Saljnikov A, Oka SN, Stevanović ŽM. Mathematical model of combustion in particulate 2-phase flow. in Heat Transfer Research. 2007;38(4):299-312.
doi:10.1615/HeatTransRes.v38.i4.20 .

Saljnikov, Aleksandar, Oka, Simeon N., Stevanović, Žarko M., "Mathematical model of combustion in particulate 2-phase flow" in Heat Transfer Research, 38, no. 4 (2007):299-312,
https://doi.org/10.1615/HeatTransRes.v38.i4.20 . .

TY  - JOUR
AU  - Saljnikov, Aleksandar
AU  - Vučićević, Biljana
AU  - Stevanović, Žarko
AU  - Kozić, Đorđe
AU  - Maglić, Kosta
AU  - Radovanović, Predrag
PY  - 2003
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/12790
AB  - U ovom radu se opisuje istraživanje karakteristika toplotnog zračenja naslaga pepela nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe. Mereni su spektri normalne emisivnosti u opsegu talasnih dužina 2,5-25 mm i ukupne normalne emisivnosti uzoraka četiri vrste pepela debljina reda milimetara i to na 600-1100 K pri grejanju i hlađenju. Zaključeno je da su slojevi praha naslaga neprovidni za infracrveno zračenje. Spektralna emisivnost raste sa porastom talasne dužine zračenja i temperature pepela. Uticaj hemijskog sastava pepela na spektralnu emisivnost nije izrazit. Ukupna emisivnost opada sa porastom temperature. Slojevi naslaga se sinteruju i stapaju na temperaturi iznad 1000 K, pri čemu je emisivnost sinterovanog sloja viša od emisivnosti sloja pre sinterovanja. Kod jedne vrste sloja pepela, dolazi do semitransparencije nakon sinterovanja. Dobijeni rezultati su sumirani sa termotehničkog stanovišta i predložen je postupak njihovog korelisanja i korišćenja u okviru modela za simulaciju sagorevanja čvrstog fosilnog goriva u pećima široke upotrebe.
T2  - Termotehnika
T1  - Istraživanje spektara emisivnosti naslaga nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe
VL  - 29
IS  - 1/4
SP  - 3
EP  - 16
UR  - https://hdl.handle.net/21.15107/rcub_vinar_12790
ER  - 

@article{
author = "Saljnikov, Aleksandar and Vučićević, Biljana and Stevanović, Žarko and Kozić, Đorđe and Maglić, Kosta and Radovanović, Predrag",
year = "2003",
abstract = "U ovom radu se opisuje istraživanje karakteristika toplotnog zračenja naslaga pepela nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe. Mereni su spektri normalne emisivnosti u opsegu talasnih dužina 2,5-25 mm i ukupne normalne emisivnosti uzoraka četiri vrste pepela debljina reda milimetara i to na 600-1100 K pri grejanju i hlađenju. Zaključeno je da su slojevi praha naslaga neprovidni za infracrveno zračenje. Spektralna emisivnost raste sa porastom talasne dužine zračenja i temperature pepela. Uticaj hemijskog sastava pepela na spektralnu emisivnost nije izrazit. Ukupna emisivnost opada sa porastom temperature. Slojevi naslaga se sinteruju i stapaju na temperaturi iznad 1000 K, pri čemu je emisivnost sinterovanog sloja viša od emisivnosti sloja pre sinterovanja. Kod jedne vrste sloja pepela, dolazi do semitransparencije nakon sinterovanja. Dobijeni rezultati su sumirani sa termotehničkog stanovišta i predložen je postupak njihovog korelisanja i korišćenja u okviru modela za simulaciju sagorevanja čvrstog fosilnog goriva u pećima široke upotrebe.",
journal = "Termotehnika",
title = "Istraživanje spektara emisivnosti naslaga nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe",
volume = "29",
number = "1/4",
pages = "3-16",
url = "https://hdl.handle.net/21.15107/rcub_vinar_12790"
}

Saljnikov, A., Vučićević, B., Stevanović, Ž., Kozić, Đ., Maglić, K.,& Radovanović, P.. (2003). Istraživanje spektara emisivnosti naslaga nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe. in Termotehnika, 29(1/4), 3-16.
https://hdl.handle.net/21.15107/rcub_vinar_12790

Saljnikov A, Vučićević B, Stevanović Ž, Kozić Đ, Maglić K, Radovanović P. Istraživanje spektara emisivnosti naslaga nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe. in Termotehnika. 2003;29(1/4):3-16.
https://hdl.handle.net/21.15107/rcub_vinar_12790 .

Saljnikov, Aleksandar, Vučićević, Biljana, Stevanović, Žarko, Kozić, Đorđe, Maglić, Kosta, Radovanović, Predrag, "Istraživanje spektara emisivnosti naslaga nastalih pri sagorevanju čvrstog fosilnog goriva u pećima široke upotrebe" in Termotehnika, 29, no. 1/4 (2003):3-16,
https://hdl.handle.net/21.15107/rcub_vinar_12790 .