TY  - CONF
AU  - Trišović, Nataša
AU  - Li, Wei
AU  - Lazović-Kapor, Tatjana
AU  - Gavrilović, Marko
AU  - Radulović, Radoslav
AU  - Milić, Milica
AU  - Baneasa Birtok, Corneliu
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7182
AB  - The modern approach to optimizing mechanical systems involves employing cutting-edge technologies and methodologies to enhance the performance, efficiency, and sustainability of various mechanical processes and systems.
PB  - Trans Tech Publications
C3  - 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
T1  - The Modern Approach to Optimizing Mechanical Systems
IS  - Scientific Books of Abstracts, Vol. 2, pp 114-114
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7182
ER  - 

@conference{
author = "Trišović, Nataša and Li, Wei and Lazović-Kapor, Tatjana and Gavrilović, Marko and Radulović, Radoslav and Milić, Milica and Baneasa Birtok, Corneliu",
year = "2023",
abstract = "The modern approach to optimizing mechanical systems involves employing cutting-edge technologies and methodologies to enhance the performance, efficiency, and sustainability of various mechanical processes and systems.",
publisher = "Trans Tech Publications",
journal = "9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland",
title = "The Modern Approach to Optimizing Mechanical Systems",
number = "Scientific Books of Abstracts, Vol. 2, pp 114-114",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7182"
}

Trišović, N., Li, W., Lazović-Kapor, T., Gavrilović, M., Radulović, R., Milić, M.,& Baneasa Birtok, C.. (2023). The Modern Approach to Optimizing Mechanical Systems. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
Trans Tech Publications.(Scientific Books of Abstracts, Vol. 2, pp 114-114).
https://hdl.handle.net/21.15107/rcub_machinery_7182

Trišović N, Li W, Lazović-Kapor T, Gavrilović M, Radulović R, Milić M, Baneasa Birtok C. The Modern Approach to Optimizing Mechanical Systems. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland. 2023;(Scientific Books of Abstracts, Vol. 2, pp 114-114).
https://hdl.handle.net/21.15107/rcub_machinery_7182 .

Trišović, Nataša, Li, Wei, Lazović-Kapor, Tatjana, Gavrilović, Marko, Radulović, Radoslav, Milić, Milica, Baneasa Birtok, Corneliu, "The Modern Approach to Optimizing Mechanical Systems" in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland, no. Scientific Books of Abstracts, Vol. 2, pp 114-114 (2023),
https://hdl.handle.net/21.15107/rcub_machinery_7182 .

TY  - CONF
AU  - Milić, Milica
AU  - Radulović, Radoslav
AU  - Trišović, Nataša
AU  - Gavrilović, Marko
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7186
AB  - This paper presents a fracture analysis of a composite beam element through an in-depth case study.
PB  - Trans Tech Publications
C3  - 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
T1  - Fracture Analysis of Composite Beam Element: Case Study
EP  - 68
SP  - 68
VL  - 2
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7186
ER  - 

@conference{
author = "Milić, Milica and Radulović, Radoslav and Trišović, Nataša and Gavrilović, Marko",
year = "2023",
abstract = "This paper presents a fracture analysis of a composite beam element through an in-depth case study.",
publisher = "Trans Tech Publications",
journal = "9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland",
title = "Fracture Analysis of Composite Beam Element: Case Study",
pages = "68-68",
volume = "2",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7186"
}

Milić, M., Radulović, R., Trišović, N.,& Gavrilović, M.. (2023). Fracture Analysis of Composite Beam Element: Case Study. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
Trans Tech Publications., 2, 68-68.
https://hdl.handle.net/21.15107/rcub_machinery_7186

Milić M, Radulović R, Trišović N, Gavrilović M. Fracture Analysis of Composite Beam Element: Case Study. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland. 2023;2:68-68.
https://hdl.handle.net/21.15107/rcub_machinery_7186 .

Milić, Milica, Radulović, Radoslav, Trišović, Nataša, Gavrilović, Marko, "Fracture Analysis of Composite Beam Element: Case Study" in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland, 2 (2023):68-68,
https://hdl.handle.net/21.15107/rcub_machinery_7186 .

TY  - CONF
AU  - Gavrilović, Marko
AU  - Radulović, Radoslav
AU  - Milić, Milica
AU  - Trišović, Nataša
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7188
AB  - In this paper the optimal number of cells in numerical grid will be considered. This way of numerical grid modeling could be applied in every numerical simulation.
PB  - Trans Tech Publications
C3  - 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
T1  - Optimal Number of Cells in a Numerical Grid for Fluid Flow around the Body
EP  - 27
SP  - 27
VL  - 2
UR  - https://hdl.handle.net/21.15107/rcub_machinery_7188
ER  - 

@conference{
author = "Gavrilović, Marko and Radulović, Radoslav and Milić, Milica and Trišović, Nataša",
year = "2023",
abstract = "In this paper the optimal number of cells in numerical grid will be considered. This way of numerical grid modeling could be applied in every numerical simulation.",
publisher = "Trans Tech Publications",
journal = "9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland",
title = "Optimal Number of Cells in a Numerical Grid for Fluid Flow around the Body",
pages = "27-27",
volume = "2",
url = "https://hdl.handle.net/21.15107/rcub_machinery_7188"
}

Gavrilović, M., Radulović, R., Milić, M.,& Trišović, N.. (2023). Optimal Number of Cells in a Numerical Grid for Fluid Flow around the Body. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland
Trans Tech Publications., 2, 27-27.
https://hdl.handle.net/21.15107/rcub_machinery_7188

Gavrilović M, Radulović R, Milić M, Trišović N. Optimal Number of Cells in a Numerical Grid for Fluid Flow around the Body. in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland. 2023;2:27-27.
https://hdl.handle.net/21.15107/rcub_machinery_7188 .

Gavrilović, Marko, Radulović, Radoslav, Milić, Milica, Trišović, Nataša, "Optimal Number of Cells in a Numerical Grid for Fluid Flow around the Body" in 9th International Scientific Conference on Advances in Mechanical Engineering (ISCAME), the Book of Abstracts, 2023 Trans Tech Publications Ltd, Switzerland, 2 (2023):27-27,
https://hdl.handle.net/21.15107/rcub_machinery_7188 .

TY  - CONF
AU  - Milić, Milica
AU  - Svorcan, Jelena
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/7251
PB  - Springer, Cham.
C3  - Novel Techniques in Maintenance, Repair, and Overhaul Proceedings of the International Symposium on Aviation Technology, MRO, and Operations 2022
T1  - Preliminary Full Configuration Drag Estimation of Fixed-Wing UAV Using Analytical Aerodynamics
EP  - 310
SP  - 305
DO  - 10.1007/978-3-031-42041-2_37
ER  - 

@conference{
author = "Milić, Milica and Svorcan, Jelena",
year = "2023",
publisher = "Springer, Cham.",
journal = "Novel Techniques in Maintenance, Repair, and Overhaul Proceedings of the International Symposium on Aviation Technology, MRO, and Operations 2022",
title = "Preliminary Full Configuration Drag Estimation of Fixed-Wing UAV Using Analytical Aerodynamics",
pages = "310-305",
doi = "10.1007/978-3-031-42041-2_37"
}

Milić, M.,& Svorcan, J.. (2023). Preliminary Full Configuration Drag Estimation of Fixed-Wing UAV Using Analytical Aerodynamics. in Novel Techniques in Maintenance, Repair, and Overhaul Proceedings of the International Symposium on Aviation Technology, MRO, and Operations 2022
Springer, Cham.., 305-310.
https://doi.org/10.1007/978-3-031-42041-2_37

Milić M, Svorcan J. Preliminary Full Configuration Drag Estimation of Fixed-Wing UAV Using Analytical Aerodynamics. in Novel Techniques in Maintenance, Repair, and Overhaul Proceedings of the International Symposium on Aviation Technology, MRO, and Operations 2022. 2023;:305-310.
doi:10.1007/978-3-031-42041-2_37 .

Milić, Milica, Svorcan, Jelena, "Preliminary Full Configuration Drag Estimation of Fixed-Wing UAV Using Analytical Aerodynamics" in Novel Techniques in Maintenance, Repair, and Overhaul Proceedings of the International Symposium on Aviation Technology, MRO, and Operations 2022 (2023):305-310,
https://doi.org/10.1007/978-3-031-42041-2_37 . .

TY  - JOUR
AU  - Stevanović, Vladimir 
AU  - Milivojević, Sanja
AU  - Petrović, Milan M.
AU  - Ilić, Milica
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4441
AB  - The analysis of pressure changes in water and steam flow along the entire once-through steam boiler tube system at the 650 MWe lignite fired Unit was carried out after the long operational period of almost 30 years without a chemical cleaning of the pipe system. A significant increase of the hydraulic resistance was recorded in comparison to the design values in the evaporator tubes, both in the water heating zone and in the evaporation zone with the two-phase mixture flow. The cause of this adverse effect is the formation of a wavy surface of the magnetite layer deposited on the inner wall of tubes. The significantly increased absolute roughness on the inner wall of tubes was determined on the basis of measured pressure drops at sections of the tube system and numerical calculation performed with a thermal-hydraulic model of single-phase and two-phase water and steam tube flows. The model is based on the steam-water two-fluid model with mass, momentum and energy balance equations and mechanistic correlations for the steam-water interface transfer processes. The model is suitable for the single and two-phase flow parameters prediction in the span from subcritical to supercritical and near critical pressure conditions. Conducted calculations provide detailed insight in the fluid pressure, velocity and temperature change in the boiler tube system. After the long operational period the pressure drop in evaporating tubes almost doubles in comparison to the design values. The presented results are a support to boiler's design, operational procedures and maintenance.
PB  - Elsevier
T2  - Case Studies in Thermal Engineering
T1  - Increased hydraulic resistance in tubes of once-through boiler due to fouling: A case study of 650 MWe ligite fired unit
IS  - February
SP  - 102706
VL  - 42
DO  - 10.1016/j.csite.2023.102706
ER  - 

@article{
author = "Stevanović, Vladimir  and Milivojević, Sanja and Petrović, Milan M. and Ilić, Milica",
year = "2023",
abstract = "The analysis of pressure changes in water and steam flow along the entire once-through steam boiler tube system at the 650 MWe lignite fired Unit was carried out after the long operational period of almost 30 years without a chemical cleaning of the pipe system. A significant increase of the hydraulic resistance was recorded in comparison to the design values in the evaporator tubes, both in the water heating zone and in the evaporation zone with the two-phase mixture flow. The cause of this adverse effect is the formation of a wavy surface of the magnetite layer deposited on the inner wall of tubes. The significantly increased absolute roughness on the inner wall of tubes was determined on the basis of measured pressure drops at sections of the tube system and numerical calculation performed with a thermal-hydraulic model of single-phase and two-phase water and steam tube flows. The model is based on the steam-water two-fluid model with mass, momentum and energy balance equations and mechanistic correlations for the steam-water interface transfer processes. The model is suitable for the single and two-phase flow parameters prediction in the span from subcritical to supercritical and near critical pressure conditions. Conducted calculations provide detailed insight in the fluid pressure, velocity and temperature change in the boiler tube system. After the long operational period the pressure drop in evaporating tubes almost doubles in comparison to the design values. The presented results are a support to boiler's design, operational procedures and maintenance.",
publisher = "Elsevier",
journal = "Case Studies in Thermal Engineering",
title = "Increased hydraulic resistance in tubes of once-through boiler due to fouling: A case study of 650 MWe ligite fired unit",
number = "February",
pages = "102706",
volume = "42",
doi = "10.1016/j.csite.2023.102706"
}

Stevanović, V., Milivojević, S., Petrović, M. M.,& Ilić, M.. (2023). Increased hydraulic resistance in tubes of once-through boiler due to fouling: A case study of 650 MWe ligite fired unit. in Case Studies in Thermal Engineering
Elsevier., 42(February), 102706.
https://doi.org/10.1016/j.csite.2023.102706

Stevanović V, Milivojević S, Petrović MM, Ilić M. Increased hydraulic resistance in tubes of once-through boiler due to fouling: A case study of 650 MWe ligite fired unit. in Case Studies in Thermal Engineering. 2023;42(February):102706.
doi:10.1016/j.csite.2023.102706 .

Stevanović, Vladimir , Milivojević, Sanja, Petrović, Milan M., Ilić, Milica, "Increased hydraulic resistance in tubes of once-through boiler due to fouling: A case study of 650 MWe ligite fired unit" in Case Studies in Thermal Engineering, 42, no. February (2023):102706,
https://doi.org/10.1016/j.csite.2023.102706 . .

TY  - JOUR
AU  - Ilić, Milica
AU  - Stevanović, Vladimir
AU  - Milivojević, Sanja
AU  - Petrović, Milan M.
PY  - 2023
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3953
AB  - This paper deals with investigations of mechanisms governing explosive boiling of water films on hot copper substrate with plain surface. The investigations are based on results of molecular dynamics (MD) simulations in which film thickness (7.5 nm, 17 nm and 25.5 nm) and substrate temperature (800 K, 700 K and 600 K) are set as parameters. Analyses of heating transients, which lead to explosive boiling event, are done comparing the following quantities for considered MD configurations: time instant of explosive boiling onset, dynamics of vapour generation, increase of water film thickness due to thermal expansion and vapour generation, evolution of water temperature as well as heat transfer from the copper substrate to the water film. These analyses have shown that explosive boiling onset is related neither to the value of substrate temperature nor to the film thickness in a straightforward way. The investigations of temperature and per atom energy in the water region near the heating substrate surface have revealed that beside thermal also mechanical mechanisms can play significant role in triggering of explosive boiling. The mechanical mechanisms, related to pressure wave propagation in liquid film, comprise occurrence of tensile stresses which induce / intensify generation of vapour phase in the near wall region. The obtained results show that thermal effects are dominant in cases with high substrate temperature and thick liquid films as in these configurations the water temperature reaches spinodal value and explosive boiling is triggered before expansion wave reaches the near wall region. In cases when water in the near wall region is strongly overheated (but well below spinodal temperature), tensile stresses induced by expansive wave propagation cause intensive vapour generation and contribute dominantly to occurrence of explosive boiling. Finally, in cases with lower substrate temperature and thin liquid films, an interplay of thermal and mechanical mechanisms leads to explosive boiling. Beside these, the disjoining pressure seems to play a role in cases with thin liquid films.
PB  - Elsevier
T2  - Applied Thermal Engineering
T1  - Explosive boiling of water films based on molecular dynamics simulations: Effects of film thickness and substrate temperature
IS  - February
SP  - 119749
VL  - 220
DO  - 10.1016/j.applthermaleng.2022.119749
ER  - 

@article{
author = "Ilić, Milica and Stevanović, Vladimir and Milivojević, Sanja and Petrović, Milan M.",
year = "2023",
abstract = "This paper deals with investigations of mechanisms governing explosive boiling of water films on hot copper substrate with plain surface. The investigations are based on results of molecular dynamics (MD) simulations in which film thickness (7.5 nm, 17 nm and 25.5 nm) and substrate temperature (800 K, 700 K and 600 K) are set as parameters. Analyses of heating transients, which lead to explosive boiling event, are done comparing the following quantities for considered MD configurations: time instant of explosive boiling onset, dynamics of vapour generation, increase of water film thickness due to thermal expansion and vapour generation, evolution of water temperature as well as heat transfer from the copper substrate to the water film. These analyses have shown that explosive boiling onset is related neither to the value of substrate temperature nor to the film thickness in a straightforward way. The investigations of temperature and per atom energy in the water region near the heating substrate surface have revealed that beside thermal also mechanical mechanisms can play significant role in triggering of explosive boiling. The mechanical mechanisms, related to pressure wave propagation in liquid film, comprise occurrence of tensile stresses which induce / intensify generation of vapour phase in the near wall region. The obtained results show that thermal effects are dominant in cases with high substrate temperature and thick liquid films as in these configurations the water temperature reaches spinodal value and explosive boiling is triggered before expansion wave reaches the near wall region. In cases when water in the near wall region is strongly overheated (but well below spinodal temperature), tensile stresses induced by expansive wave propagation cause intensive vapour generation and contribute dominantly to occurrence of explosive boiling. Finally, in cases with lower substrate temperature and thin liquid films, an interplay of thermal and mechanical mechanisms leads to explosive boiling. Beside these, the disjoining pressure seems to play a role in cases with thin liquid films.",
publisher = "Elsevier",
journal = "Applied Thermal Engineering",
title = "Explosive boiling of water films based on molecular dynamics simulations: Effects of film thickness and substrate temperature",
number = "February",
pages = "119749",
volume = "220",
doi = "10.1016/j.applthermaleng.2022.119749"
}

Ilić, M., Stevanović, V., Milivojević, S.,& Petrović, M. M.. (2023). Explosive boiling of water films based on molecular dynamics simulations: Effects of film thickness and substrate temperature. in Applied Thermal Engineering
Elsevier., 220(February), 119749.
https://doi.org/10.1016/j.applthermaleng.2022.119749

Ilić M, Stevanović V, Milivojević S, Petrović MM. Explosive boiling of water films based on molecular dynamics simulations: Effects of film thickness and substrate temperature. in Applied Thermal Engineering. 2023;220(February):119749.
doi:10.1016/j.applthermaleng.2022.119749 .

Ilić, Milica, Stevanović, Vladimir, Milivojević, Sanja, Petrović, Milan M., "Explosive boiling of water films based on molecular dynamics simulations: Effects of film thickness and substrate temperature" in Applied Thermal Engineering, 220, no. February (2023):119749,
https://doi.org/10.1016/j.applthermaleng.2022.119749 . .

TY  - CONF
AU  - Stevanović, Vladimir
AU  - Milivojević, Sanja
AU  - Petrović, Milan M.
AU  - Ilić, Milica
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4511
AB  - The analysis of pressure changes in water and steam flow along the entire once-through steam 
boiler tube system at the 650 MWe lignite fired Unit was carried out after the long operational period 
of almost 30 years without a chemical cleaning of the pipe system. A significant increase of the hydraulic
resistance was recorded in comparison to the design values in the evaporator tubes, both in 
the water heating zone and in the evaporation zone with the two-phase mixture flow. The cause of 
this adverse effect is the formation of a wavy surface of the magnetite layer deposited on the inner 
wall of tubes. The significantly increased hydraulic roughness on the inner wall of tubes was determined
on the basis of measured pressure drops at sections of the tube system and numerical calculation
performed with a thermal-hydraulic model of single-phase and two-phase water and steam tube 
flows. The model is based on the steam-water two-fluid model with mass, momentum and energy 
balance equations and mechanistic correlations for the steam-water interface transfer processes. The 
model is suitable for the single and two-phase flow parameters prediction in the span from subcritical 
to supercritical and near critical pressure conditions. Conducted calculations provide detailed insight
in the fluid pressure, velocity and temperature change in the boiler tube system. After the long 
operational period the pressure drop in evaporating tubes almost doubles in comparison to the design 
values. The presented results are a support to boiler’s design, operational procedures and maintenance.
PB  - Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS)
C3  - 35. Međunarodni kongres o procesnoj industriji - Procesing 2022, Beograd, Srbija, 1-2. jun 2022.
T1  - Increased hydraulic resistance in tubes of once-through boiler due to fouling: a case study of 650 MWe ligite fired unit
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4511
ER  - 

@conference{
author = "Stevanović, Vladimir and Milivojević, Sanja and Petrović, Milan M. and Ilić, Milica",
year = "2022",
abstract = "The analysis of pressure changes in water and steam flow along the entire once-through steam 
boiler tube system at the 650 MWe lignite fired Unit was carried out after the long operational period 
of almost 30 years without a chemical cleaning of the pipe system. A significant increase of the hydraulic
resistance was recorded in comparison to the design values in the evaporator tubes, both in 
the water heating zone and in the evaporation zone with the two-phase mixture flow. The cause of 
this adverse effect is the formation of a wavy surface of the magnetite layer deposited on the inner 
wall of tubes. The significantly increased hydraulic roughness on the inner wall of tubes was determined
on the basis of measured pressure drops at sections of the tube system and numerical calculation
performed with a thermal-hydraulic model of single-phase and two-phase water and steam tube 
flows. The model is based on the steam-water two-fluid model with mass, momentum and energy 
balance equations and mechanistic correlations for the steam-water interface transfer processes. The 
model is suitable for the single and two-phase flow parameters prediction in the span from subcritical 
to supercritical and near critical pressure conditions. Conducted calculations provide detailed insight
in the fluid pressure, velocity and temperature change in the boiler tube system. After the long 
operational period the pressure drop in evaporating tubes almost doubles in comparison to the design 
values. The presented results are a support to boiler’s design, operational procedures and maintenance.",
publisher = "Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS)",
journal = "35. Međunarodni kongres o procesnoj industriji - Procesing 2022, Beograd, Srbija, 1-2. jun 2022.",
title = "Increased hydraulic resistance in tubes of once-through boiler due to fouling: a case study of 650 MWe ligite fired unit",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4511"
}

Stevanović, V., Milivojević, S., Petrović, M. M.,& Ilić, M.. (2022). Increased hydraulic resistance in tubes of once-through boiler due to fouling: a case study of 650 MWe ligite fired unit. in 35. Međunarodni kongres o procesnoj industriji - Procesing 2022, Beograd, Srbija, 1-2. jun 2022.
Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS)..
https://hdl.handle.net/21.15107/rcub_machinery_4511

Stevanović V, Milivojević S, Petrović MM, Ilić M. Increased hydraulic resistance in tubes of once-through boiler due to fouling: a case study of 650 MWe ligite fired unit. in 35. Međunarodni kongres o procesnoj industriji - Procesing 2022, Beograd, Srbija, 1-2. jun 2022.. 2022;.
https://hdl.handle.net/21.15107/rcub_machinery_4511 .

Stevanović, Vladimir, Milivojević, Sanja, Petrović, Milan M., Ilić, Milica, "Increased hydraulic resistance in tubes of once-through boiler due to fouling: a case study of 650 MWe ligite fired unit" in 35. Međunarodni kongres o procesnoj industriji - Procesing 2022, Beograd, Srbija, 1-2. jun 2022. (2022),
https://hdl.handle.net/21.15107/rcub_machinery_4511 .

TY  - JOUR
AU  - Milivojević, Sanja
AU  - Stevanović, Vladimir
AU  - Petrović, Milan M.
AU  - Ilić, Milica
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4504
PB  - Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)
T2  - Procesna tehnika
T1  - Povećanje energetske efikasnosti parnog bloka  iskorišćenjem otpadne toplote dimnog gasa
EP  - 37
IS  - 2
SP  - 30
VL  - Godina 33
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4504
ER  - 

@article{
author = "Milivojević, Sanja and Stevanović, Vladimir and Petrović, Milan M. and Ilić, Milica",
year = "2022",
publisher = "Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)",
journal = "Procesna tehnika",
title = "Povećanje energetske efikasnosti parnog bloka  iskorišćenjem otpadne toplote dimnog gasa",
pages = "37-30",
number = "2",
volume = "Godina 33",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4504"
}

Milivojević, S., Stevanović, V., Petrović, M. M.,& Ilić, M.. (2022). Povećanje energetske efikasnosti parnog bloka  iskorišćenjem otpadne toplote dimnog gasa. in Procesna tehnika
Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)., Godina 33(2), 30-37.
https://hdl.handle.net/21.15107/rcub_machinery_4504

Milivojević S, Stevanović V, Petrović MM, Ilić M. Povećanje energetske efikasnosti parnog bloka  iskorišćenjem otpadne toplote dimnog gasa. in Procesna tehnika. 2022;Godina 33(2):30-37.
https://hdl.handle.net/21.15107/rcub_machinery_4504 .

Milivojević, Sanja, Stevanović, Vladimir, Petrović, Milan M., Ilić, Milica, "Povećanje energetske efikasnosti parnog bloka  iskorišćenjem otpadne toplote dimnog gasa" in Procesna tehnika, Godina 33, no. 2 (2022):30-37,
https://hdl.handle.net/21.15107/rcub_machinery_4504 .

TY  - CONF
AU  - Petrović, Milan M.
AU  - Stevanović, Vladimir
AU  - Milivojević, Sanja
AU  - Ilić, Milica
PY  - 2022
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4497
AB  - A concise one-dimensional thermal-hydraulic two-fluid model is presented for the 
numerical prediction of sulphur dioxide absorption from the flue gas onto drops of the waterlimestone
slurry in the vertical spray tower absorber. The model is based on mass, momentum and 
energy balance equations for each phase separately, i.e. downward falling droplets of water-limestone 
slurry and upward flowing flue gas. The sulphur dioxide content in the flue gas is predicted by a 
balance equation of the sulphur dioxide mass fraction in the flue gas. Interface transfer processes 
between the flue gas and the droplets are determined by closure laws. The obtained steady-state 
balance equations are transformed in a form suitable for a direct application of the numerical 
integration method for the system of ordinary differential equations. The developed thermal-hydraulic 
model is validated by comparing numerical results with available measured data at the large utility 
absorber. The presented results clearly show the dynamics of flue gas and droplets thermal-hydraulic 
processes and their influence on the absorption process. The influence of liquid-to-gas ratio and 
droplet diameter on sulphur dioxide removal efficiency has been investigated.
PB  - Društvo termičara Srbije
C3  - Industrijska energetika i zaštita životne sredine u zemljama Jugoistočne Evrope, IEEP 2022, November 8-10, 2022
T1  - NUMERICAL SIMULATION OF WET FLUE GAS DESULPHURIZATION  IN WET SPRAY ABSORBER
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4497
ER  - 

@conference{
author = "Petrović, Milan M. and Stevanović, Vladimir and Milivojević, Sanja and Ilić, Milica",
year = "2022",
abstract = "A concise one-dimensional thermal-hydraulic two-fluid model is presented for the 
numerical prediction of sulphur dioxide absorption from the flue gas onto drops of the waterlimestone
slurry in the vertical spray tower absorber. The model is based on mass, momentum and 
energy balance equations for each phase separately, i.e. downward falling droplets of water-limestone 
slurry and upward flowing flue gas. The sulphur dioxide content in the flue gas is predicted by a 
balance equation of the sulphur dioxide mass fraction in the flue gas. Interface transfer processes 
between the flue gas and the droplets are determined by closure laws. The obtained steady-state 
balance equations are transformed in a form suitable for a direct application of the numerical 
integration method for the system of ordinary differential equations. The developed thermal-hydraulic 
model is validated by comparing numerical results with available measured data at the large utility 
absorber. The presented results clearly show the dynamics of flue gas and droplets thermal-hydraulic 
processes and their influence on the absorption process. The influence of liquid-to-gas ratio and 
droplet diameter on sulphur dioxide removal efficiency has been investigated.",
publisher = "Društvo termičara Srbije",
journal = "Industrijska energetika i zaštita životne sredine u zemljama Jugoistočne Evrope, IEEP 2022, November 8-10, 2022",
title = "NUMERICAL SIMULATION OF WET FLUE GAS DESULPHURIZATION  IN WET SPRAY ABSORBER",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4497"
}

Petrović, M. M., Stevanović, V., Milivojević, S.,& Ilić, M.. (2022). NUMERICAL SIMULATION OF WET FLUE GAS DESULPHURIZATION  IN WET SPRAY ABSORBER. in Industrijska energetika i zaštita životne sredine u zemljama Jugoistočne Evrope, IEEP 2022, November 8-10, 2022
Društvo termičara Srbije..
https://hdl.handle.net/21.15107/rcub_machinery_4497

Petrović MM, Stevanović V, Milivojević S, Ilić M. NUMERICAL SIMULATION OF WET FLUE GAS DESULPHURIZATION  IN WET SPRAY ABSORBER. in Industrijska energetika i zaštita životne sredine u zemljama Jugoistočne Evrope, IEEP 2022, November 8-10, 2022. 2022;.
https://hdl.handle.net/21.15107/rcub_machinery_4497 .

Petrović, Milan M., Stevanović, Vladimir, Milivojević, Sanja, Ilić, Milica, "NUMERICAL SIMULATION OF WET FLUE GAS DESULPHURIZATION  IN WET SPRAY ABSORBER" in Industrijska energetika i zaštita životne sredine u zemljama Jugoistočne Evrope, IEEP 2022, November 8-10, 2022 (2022),
https://hdl.handle.net/21.15107/rcub_machinery_4497 .

TY  - CONF
AU  - Milivojević, Sanja
AU  - Stevanović, Vladimir
AU  - Petrović, Milan M.
AU  - Ilić, Milica
PY  - 2021
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4520
AB  - U termoelektranama sa starijim projektnim rešenjima postoji značajan potencijal za iskorišćenje otpadne toplote 
dimnih gasova. Otpadna toplota dimnog gasa se može iskoristiti primenom zagrejača vode visokog pritiska (ZVVP) i 
niskog pritiska (ZVNP). U ovom radu je razmatrano rešenje sa ZVVP koji se napaja vоdоm sа pоtisnоg vоdа nаpојnе 
pumpе parnog bloka termoelektrane na ugalj, kao i primena ZVNP koji se napaja kondenzatom iz linije kondenzata 
niskog pritiska. U cilju poređenja energetskih efekata primene ZVVP i ZVNP, usvojene su iste površine oba 
razmenjivača. Minimalna temperatura kondenzata na ulazu u zagrejač vode je ograničena pojavom niskotemperaturne 
korozije. Povećanje električne snage na generatoru bruto ugradnjom ZVVP je 2,5 puta veće nego u slučaju sa ZVNP, a 
povećanje stepena korisnosti bloka bruto ugradnjom ZVNP je za 20% veće nego sa ZVVP. U radu su predstavljeni 
efekti ugradnje ZVVP koji se napaja hladnom napojnom vodom u termoelektrani "Nikola Tesla B".
PB  - Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)
C3  - 34. Međunarodni kongres o procesnoj industriji - Procesing 2021, Novi Sad, Srbija, 3-4. jun 2021
T1  - Povećanje energetske efikasnosti parnog bloka iskorišćenjem otpadne toplote dimnog gasa
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4520
ER  - 

@conference{
author = "Milivojević, Sanja and Stevanović, Vladimir and Petrović, Milan M. and Ilić, Milica",
year = "2021",
abstract = "U termoelektranama sa starijim projektnim rešenjima postoji značajan potencijal za iskorišćenje otpadne toplote 
dimnih gasova. Otpadna toplota dimnog gasa se može iskoristiti primenom zagrejača vode visokog pritiska (ZVVP) i 
niskog pritiska (ZVNP). U ovom radu je razmatrano rešenje sa ZVVP koji se napaja vоdоm sа pоtisnоg vоdа nаpојnе 
pumpе parnog bloka termoelektrane na ugalj, kao i primena ZVNP koji se napaja kondenzatom iz linije kondenzata 
niskog pritiska. U cilju poređenja energetskih efekata primene ZVVP i ZVNP, usvojene su iste površine oba 
razmenjivača. Minimalna temperatura kondenzata na ulazu u zagrejač vode je ograničena pojavom niskotemperaturne 
korozije. Povećanje električne snage na generatoru bruto ugradnjom ZVVP je 2,5 puta veće nego u slučaju sa ZVNP, a 
povećanje stepena korisnosti bloka bruto ugradnjom ZVNP je za 20% veće nego sa ZVVP. U radu su predstavljeni 
efekti ugradnje ZVVP koji se napaja hladnom napojnom vodom u termoelektrani "Nikola Tesla B".",
publisher = "Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)",
journal = "34. Međunarodni kongres o procesnoj industriji - Procesing 2021, Novi Sad, Srbija, 3-4. jun 2021",
title = "Povećanje energetske efikasnosti parnog bloka iskorišćenjem otpadne toplote dimnog gasa",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4520"
}

Milivojević, S., Stevanović, V., Petrović, M. M.,& Ilić, M.. (2021). Povećanje energetske efikasnosti parnog bloka iskorišćenjem otpadne toplote dimnog gasa. in 34. Međunarodni kongres o procesnoj industriji - Procesing 2021, Novi Sad, Srbija, 3-4. jun 2021
Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)..
https://hdl.handle.net/21.15107/rcub_machinery_4520

Milivojević S, Stevanović V, Petrović MM, Ilić M. Povećanje energetske efikasnosti parnog bloka iskorišćenjem otpadne toplote dimnog gasa. in 34. Međunarodni kongres o procesnoj industriji - Procesing 2021, Novi Sad, Srbija, 3-4. jun 2021. 2021;.
https://hdl.handle.net/21.15107/rcub_machinery_4520 .

Milivojević, Sanja, Stevanović, Vladimir, Petrović, Milan M., Ilić, Milica, "Povećanje energetske efikasnosti parnog bloka iskorišćenjem otpadne toplote dimnog gasa" in 34. Međunarodni kongres o procesnoj industriji - Procesing 2021, Novi Sad, Srbija, 3-4. jun 2021 (2021),
https://hdl.handle.net/21.15107/rcub_machinery_4520 .

TY  - JOUR
AU  - Ilić, Milica
AU  - Stevanović, Vladimir
AU  - Milivojević, Sanja
AU  - Petrović, Milan M.
PY  - 2021
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3609
AB  - In this paper the dynamics of explosive boiling of a 72 angstrom thick water film on the hot copper substrate with the plain surface is analysed. The analyses are based on the results of molecular dynamics (MD) simulations of the transient in which the thermostat temperature within the solid substrate is increased from 298 to 800K. The obtained results show that explosive boiling comprises several phases. The first phase involves rapid thermoacoustic pressure build-up in the near wall region due to intensive water heating and its volumetric expansion. The generated compression wave propagates through the liquid film reaching the peak value higher than critical water pressure. Due to reflection at the free film surface the original compression wave turns into an expansion wave. This event leads to a rapid pressure decrease and occurrence of tension stress. The second phase starts when the pressure enters the negative domain. This phase is accompanied with nucleation of vapour embryos and their subsequent growth in the superheated water layer in the near wall region. As the intensity of vapour phase generation is moderate, the liquid film in this phase is still exposed to tension. The stress recovery starts in the third phase when the water temperature in the near wall layer attains the spinodal value. This leads to a massive vaporization, nanobubble coalescence and thermal explosion, which causes spallation of the liquid film and lift-off of the liquid slug. The last phase is characterized by suppression of heat transfer by the expanding vapour layer. As a consequence, after reaching the maximum, the pressure decreases. This paper gives quantitative description and detailed insight into the mechanisms associated with each of the aforementioned phases.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - International Journal of Heat and Mass Transfer
T1  - New insights into physics of explosive water boiling derived from molecular dynamics simulations
SP  - 121141
VL  - 172
DO  - 10.1016/j.ijheatmasstransfer.2021.121141
ER  - 

@article{
author = "Ilić, Milica and Stevanović, Vladimir and Milivojević, Sanja and Petrović, Milan M.",
year = "2021",
abstract = "In this paper the dynamics of explosive boiling of a 72 angstrom thick water film on the hot copper substrate with the plain surface is analysed. The analyses are based on the results of molecular dynamics (MD) simulations of the transient in which the thermostat temperature within the solid substrate is increased from 298 to 800K. The obtained results show that explosive boiling comprises several phases. The first phase involves rapid thermoacoustic pressure build-up in the near wall region due to intensive water heating and its volumetric expansion. The generated compression wave propagates through the liquid film reaching the peak value higher than critical water pressure. Due to reflection at the free film surface the original compression wave turns into an expansion wave. This event leads to a rapid pressure decrease and occurrence of tension stress. The second phase starts when the pressure enters the negative domain. This phase is accompanied with nucleation of vapour embryos and their subsequent growth in the superheated water layer in the near wall region. As the intensity of vapour phase generation is moderate, the liquid film in this phase is still exposed to tension. The stress recovery starts in the third phase when the water temperature in the near wall layer attains the spinodal value. This leads to a massive vaporization, nanobubble coalescence and thermal explosion, which causes spallation of the liquid film and lift-off of the liquid slug. The last phase is characterized by suppression of heat transfer by the expanding vapour layer. As a consequence, after reaching the maximum, the pressure decreases. This paper gives quantitative description and detailed insight into the mechanisms associated with each of the aforementioned phases.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "International Journal of Heat and Mass Transfer",
title = "New insights into physics of explosive water boiling derived from molecular dynamics simulations",
pages = "121141",
volume = "172",
doi = "10.1016/j.ijheatmasstransfer.2021.121141"
}

Ilić, M., Stevanović, V., Milivojević, S.,& Petrović, M. M.. (2021). New insights into physics of explosive water boiling derived from molecular dynamics simulations. in International Journal of Heat and Mass Transfer
Pergamon-Elsevier Science Ltd, Oxford., 172, 121141.
https://doi.org/10.1016/j.ijheatmasstransfer.2021.121141

Ilić M, Stevanović V, Milivojević S, Petrović MM. New insights into physics of explosive water boiling derived from molecular dynamics simulations. in International Journal of Heat and Mass Transfer. 2021;172:121141.
doi:10.1016/j.ijheatmasstransfer.2021.121141 .

Ilić, Milica, Stevanović, Vladimir, Milivojević, Sanja, Petrović, Milan M., "New insights into physics of explosive water boiling derived from molecular dynamics simulations" in International Journal of Heat and Mass Transfer, 172 (2021):121141,
https://doi.org/10.1016/j.ijheatmasstransfer.2021.121141 . .

TY  - CONF
AU  - Stevanović, Vladimir
AU  - Milivojević, Sanja
AU  - Petrović, Milan M.
AU  - Ilić, Milica
PY  - 2020
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4493
AB  - The analysis of pressure changes in water and steam flow along the entire once-through steam boiler 
tube system was carried out. An efficient advanced method is developed and presented for the 
prediction of once-through boiler thermalhydraulics, which is based on the steam-water two-fluid 
model with mass, momentum and energy balance equations and mechanistic correlations for the 
steam-water interface transfer processes. The model is suitable for the fluid flow parameters prediction 
in the span from single and two-phase flow conditions under subcritical operating conditions to 
supercritical and near critical flow conditions. Conducted calculations provide detailed insight in the 
fluid pressure, velocity and temperature change in the boiler tube system. The numerical results are 
validated by comparison with data measured at the boiler tube system. The thermalhydraulic analysis 
shows that a significant increase in hydraulic resistance occurs in boiler evaporator tubes, while this 
increase in the steam superheater tubes is lower. The increase of hydraulic resistance in the evaporator 
tubes, both in the water heating zone and in the evaporation zone with the two phase mixture flow is 
due to the fouling deposited on the inner wall of tubes. The pressure drop in evaporating tubes almost 
doubles in comparison to the design values after the long operational period. The presented results are 
a support to boiler’s design, operational procedures and maintenance.
PB  - Department of Thermal Technology, Gliwice, Poland, Silesian University of Technology 2020
C3  - Proceedings of the 6th International Conference on Contemporary Problems of Thermal Engineering - CPOTE 2020, online, Poland, September 21-24, 2020
T1  - Thermalhydraulics of once-through steam boiler tubes revisited
EP  - 328
SP  - 317
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4493
ER  - 

@conference{
author = "Stevanović, Vladimir and Milivojević, Sanja and Petrović, Milan M. and Ilić, Milica",
year = "2020",
abstract = "The analysis of pressure changes in water and steam flow along the entire once-through steam boiler 
tube system was carried out. An efficient advanced method is developed and presented for the 
prediction of once-through boiler thermalhydraulics, which is based on the steam-water two-fluid 
model with mass, momentum and energy balance equations and mechanistic correlations for the 
steam-water interface transfer processes. The model is suitable for the fluid flow parameters prediction 
in the span from single and two-phase flow conditions under subcritical operating conditions to 
supercritical and near critical flow conditions. Conducted calculations provide detailed insight in the 
fluid pressure, velocity and temperature change in the boiler tube system. The numerical results are 
validated by comparison with data measured at the boiler tube system. The thermalhydraulic analysis 
shows that a significant increase in hydraulic resistance occurs in boiler evaporator tubes, while this 
increase in the steam superheater tubes is lower. The increase of hydraulic resistance in the evaporator 
tubes, both in the water heating zone and in the evaporation zone with the two phase mixture flow is 
due to the fouling deposited on the inner wall of tubes. The pressure drop in evaporating tubes almost 
doubles in comparison to the design values after the long operational period. The presented results are 
a support to boiler’s design, operational procedures and maintenance.",
publisher = "Department of Thermal Technology, Gliwice, Poland, Silesian University of Technology 2020",
journal = "Proceedings of the 6th International Conference on Contemporary Problems of Thermal Engineering - CPOTE 2020, online, Poland, September 21-24, 2020",
title = "Thermalhydraulics of once-through steam boiler tubes revisited",
pages = "328-317",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4493"
}

Stevanović, V., Milivojević, S., Petrović, M. M.,& Ilić, M.. (2020). Thermalhydraulics of once-through steam boiler tubes revisited. in Proceedings of the 6th International Conference on Contemporary Problems of Thermal Engineering - CPOTE 2020, online, Poland, September 21-24, 2020
Department of Thermal Technology, Gliwice, Poland, Silesian University of Technology 2020., 317-328.
https://hdl.handle.net/21.15107/rcub_machinery_4493

Stevanović V, Milivojević S, Petrović MM, Ilić M. Thermalhydraulics of once-through steam boiler tubes revisited. in Proceedings of the 6th International Conference on Contemporary Problems of Thermal Engineering - CPOTE 2020, online, Poland, September 21-24, 2020. 2020;:317-328.
https://hdl.handle.net/21.15107/rcub_machinery_4493 .

Stevanović, Vladimir, Milivojević, Sanja, Petrović, Milan M., Ilić, Milica, "Thermalhydraulics of once-through steam boiler tubes revisited" in Proceedings of the 6th International Conference on Contemporary Problems of Thermal Engineering - CPOTE 2020, online, Poland, September 21-24, 2020 (2020):317-328,
https://hdl.handle.net/21.15107/rcub_machinery_4493 .

TY  - JOUR
AU  - Stevanović, Vladimir
AU  - Petrović, Milan M.
AU  - Milivojević, Sanja
AU  - Ilić, Milica
PY  - 2020
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3342
AB  - Thermal power plants are forced to operate under frequent load changes in energy systems with increased share of solar and wind power plants. These load changes increase thermal power plant aging and reduce their efficiency. Therefore, solutions for energy storage are sought in order to accumulate energy in periods of lower power demand and produce excess power in periods of increased demands. In the present paper the steam accumulator as the thermal energy storage device is applied in a 650 MWe coal-fired thermal power plant to increase its flexibility under the demand for the variable load changes. The steam accumulator is charged during periods of lower power demand, as during the night hours, and discharged during peak load demands. The steam accumulator with volume of 600 m(3) is charged with superheated steam (pressure 4.5 MPa and temperature 335 degrees C) extracted from the exit of high pressure steam turbine. The steam discharged from the steam accumulator replaces the turbine steam extraction for two low pressure heaters: a 59.5 MWt and a 54.6 MWt heater operating at 0.56 MPa and 0.23 MPa steam pressure. This replacement results in an increase of the steam flow rate through the turbine and the turbine power gain of 27.3 MWe during 27 min and 11.5 MWe for additional 13 min. The proposed solution of the steam accumulator installation in the power plant is a new design. The upgrade of power plant flexibility by steam accumulator is demonstrated.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Energy Conversion and Management
T1  - Upgrade of the thermal power plant flexibility by the steam accumulator
SP  - 113271
VL  - 223
DO  - 10.1016/j.enconman.2020.113271
ER  - 

@article{
author = "Stevanović, Vladimir and Petrović, Milan M. and Milivojević, Sanja and Ilić, Milica",
year = "2020",
abstract = "Thermal power plants are forced to operate under frequent load changes in energy systems with increased share of solar and wind power plants. These load changes increase thermal power plant aging and reduce their efficiency. Therefore, solutions for energy storage are sought in order to accumulate energy in periods of lower power demand and produce excess power in periods of increased demands. In the present paper the steam accumulator as the thermal energy storage device is applied in a 650 MWe coal-fired thermal power plant to increase its flexibility under the demand for the variable load changes. The steam accumulator is charged during periods of lower power demand, as during the night hours, and discharged during peak load demands. The steam accumulator with volume of 600 m(3) is charged with superheated steam (pressure 4.5 MPa and temperature 335 degrees C) extracted from the exit of high pressure steam turbine. The steam discharged from the steam accumulator replaces the turbine steam extraction for two low pressure heaters: a 59.5 MWt and a 54.6 MWt heater operating at 0.56 MPa and 0.23 MPa steam pressure. This replacement results in an increase of the steam flow rate through the turbine and the turbine power gain of 27.3 MWe during 27 min and 11.5 MWe for additional 13 min. The proposed solution of the steam accumulator installation in the power plant is a new design. The upgrade of power plant flexibility by steam accumulator is demonstrated.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy Conversion and Management",
title = "Upgrade of the thermal power plant flexibility by the steam accumulator",
pages = "113271",
volume = "223",
doi = "10.1016/j.enconman.2020.113271"
}

Stevanović, V., Petrović, M. M., Milivojević, S.,& Ilić, M.. (2020). Upgrade of the thermal power plant flexibility by the steam accumulator. in Energy Conversion and Management
Pergamon-Elsevier Science Ltd, Oxford., 223, 113271.
https://doi.org/10.1016/j.enconman.2020.113271

Stevanović V, Petrović MM, Milivojević S, Ilić M. Upgrade of the thermal power plant flexibility by the steam accumulator. in Energy Conversion and Management. 2020;223:113271.
doi:10.1016/j.enconman.2020.113271 .

Stevanović, Vladimir, Petrović, Milan M., Milivojević, Sanja, Ilić, Milica, "Upgrade of the thermal power plant flexibility by the steam accumulator" in Energy Conversion and Management, 223 (2020):113271,
https://doi.org/10.1016/j.enconman.2020.113271 . .

TY  - CONF
AU  - Petrović, Milan M.
AU  - Stevanović, Vladimir
AU  - Ilić, Milica
AU  - Milivojević, Sanja
PY  - 2019
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4521
AB  - Ključanje je fenomen koji se odvija u procesnim, termoenergetskim i hemijskim postrojenjima i 
opremi. Precizno predviđanje koeficijenta prelaza toplote pri projektovanju i dimenzionisanju 
opreme u kojoj se odvija ključanje je veoma važno sa stanovišta sigurnosti i pouzdanosti rada. U 
ovom radu su prikazani rezultati numeričkog istraživanja bazenskog ključanja i mehanizama 
razmene toplote između zagrejačkog zida i ključajućeg fluida. Numeričko istraživanje je bazirano 
na formiranju modela za zagrejački zid kao i primeni modela dva fluida za dvofaznu mešavinu 
tečne i parne faze. Model zagrejačkog zida je zasnovan na rešavanju jednačine nestacionarnog 
provođenja toplote, dok je model dva fluida zasnovan na rešavanju jednačina bilansa mase, 
količine kretanja i energije za tečnu i parnu fazu posebno. Spregnutost ova dva modela je ostvarena 
uzimanjem u obzir mikro parametara, kao i odgovarajućim modeliranjem prenosa toplote na 
mestima gde nastaje mehur i prenosa toplote na tečni film koji okružuje mehurove. Razvijeni model 
uzima u obzir broj mesta nukleacije, prečnik mehura, vreme zadržavanja mehura na zagrejačkom 
zidu i ugao kvašenja kao parametre koji određuju dinamiku ključanja. Takođe, analizirano je kako 
ugao kvašenja, različite vrste materijala zagrejačkog zida pri različitim vrednostima toplotnih 
flukseva utiču na pregrejanje zida. Prikazani rezultati su upoređeni sa izmerenim vrednostima 
dostupnim u literaturi i ostvarena su zadovoljavajuća slaganja.
PB  - Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)
C3  - 32. Međunarodni kongres o procesnoj industriji - Procesing 2019, Beograd, Srbija, 30-31. maj 2019
T1  - Numeričko istraživanje bazenskog ključanja i mehanizama razmene toplote na zagrejačkom zidu
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4521
ER  - 

@conference{
author = "Petrović, Milan M. and Stevanović, Vladimir and Ilić, Milica and Milivojević, Sanja",
year = "2019",
abstract = "Ključanje je fenomen koji se odvija u procesnim, termoenergetskim i hemijskim postrojenjima i 
opremi. Precizno predviđanje koeficijenta prelaza toplote pri projektovanju i dimenzionisanju 
opreme u kojoj se odvija ključanje je veoma važno sa stanovišta sigurnosti i pouzdanosti rada. U 
ovom radu su prikazani rezultati numeričkog istraživanja bazenskog ključanja i mehanizama 
razmene toplote između zagrejačkog zida i ključajućeg fluida. Numeričko istraživanje je bazirano 
na formiranju modela za zagrejački zid kao i primeni modela dva fluida za dvofaznu mešavinu 
tečne i parne faze. Model zagrejačkog zida je zasnovan na rešavanju jednačine nestacionarnog 
provođenja toplote, dok je model dva fluida zasnovan na rešavanju jednačina bilansa mase, 
količine kretanja i energije za tečnu i parnu fazu posebno. Spregnutost ova dva modela je ostvarena 
uzimanjem u obzir mikro parametara, kao i odgovarajućim modeliranjem prenosa toplote na 
mestima gde nastaje mehur i prenosa toplote na tečni film koji okružuje mehurove. Razvijeni model 
uzima u obzir broj mesta nukleacije, prečnik mehura, vreme zadržavanja mehura na zagrejačkom 
zidu i ugao kvašenja kao parametre koji određuju dinamiku ključanja. Takođe, analizirano je kako 
ugao kvašenja, različite vrste materijala zagrejačkog zida pri različitim vrednostima toplotnih 
flukseva utiču na pregrejanje zida. Prikazani rezultati su upoređeni sa izmerenim vrednostima 
dostupnim u literaturi i ostvarena su zadovoljavajuća slaganja.",
publisher = "Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)",
journal = "32. Međunarodni kongres o procesnoj industriji - Procesing 2019, Beograd, Srbija, 30-31. maj 2019",
title = "Numeričko istraživanje bazenskog ključanja i mehanizama razmene toplote na zagrejačkom zidu",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4521"
}

Petrović, M. M., Stevanović, V., Ilić, M.,& Milivojević, S.. (2019). Numeričko istraživanje bazenskog ključanja i mehanizama razmene toplote na zagrejačkom zidu. in 32. Međunarodni kongres o procesnoj industriji - Procesing 2019, Beograd, Srbija, 30-31. maj 2019
Beograd : Savez mašinskih i elektrotehničkih inženjera Srbije (SMEITS)..
https://hdl.handle.net/21.15107/rcub_machinery_4521

Petrović MM, Stevanović V, Ilić M, Milivojević S. Numeričko istraživanje bazenskog ključanja i mehanizama razmene toplote na zagrejačkom zidu. in 32. Međunarodni kongres o procesnoj industriji - Procesing 2019, Beograd, Srbija, 30-31. maj 2019. 2019;.
https://hdl.handle.net/21.15107/rcub_machinery_4521 .

Petrović, Milan M., Stevanović, Vladimir, Ilić, Milica, Milivojević, Sanja, "Numeričko istraživanje bazenskog ključanja i mehanizama razmene toplote na zagrejačkom zidu" in 32. Međunarodni kongres o procesnoj industriji - Procesing 2019, Beograd, Srbija, 30-31. maj 2019 (2019),
https://hdl.handle.net/21.15107/rcub_machinery_4521 .

TY  - JOUR
AU  - Stevanović, Vladimir
AU  - Petrović, Milan M.
AU  - Wala, Tadeusz
AU  - Milivojević, Sanja
AU  - Ilić, Milica
AU  - Muszynski, Slawomir
PY  - 2019
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3059
AB  - A substantial potential exists for the recovery of flue gas waste heat at aged coal-fired power plants. High and low pressure economizers (HPE, LPE) can be applied for this purpose. Two cases of the feedwater supply to the HPE are considered: a supply of the "cold" feedwater taken from the feedwater pump discharge line and a supply of the "hot" feedwater taken after high pressure heaters. The LPE is fed by condensate taken from the low pressure condensate line. The heat transfer area of economizers is equal in all cases. The heat transfer rate of the LPE is maximized by the lowest possible condensate temperature at the economizer inlet, which is limited by the acid dew point temperature. The power upgrade by the HPE fed with the "cold" feedwater is by 2.5 times higher than in case with the LPE. The plant efficiency upgrade by the LPE is by 20% higher than in case with the HPE fed with "cold" feedwater. The HPE fed with the hot feedwater is not competitive. The presented overall benefits achieved by the HPE fed with the cold feedwater justify its implementation at the aged 620 MWe power plant.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Energy
T1  - Efficiency and power upgrade at the aged lignite-fired power plant by flue gas waste heat utilization: High pressure versus low pressure economizer installation
SP  - 115980
VL  - 187
DO  - 10.1016/j.energy.2019.115980
ER  - 

@article{
author = "Stevanović, Vladimir and Petrović, Milan M. and Wala, Tadeusz and Milivojević, Sanja and Ilić, Milica and Muszynski, Slawomir",
year = "2019",
abstract = "A substantial potential exists for the recovery of flue gas waste heat at aged coal-fired power plants. High and low pressure economizers (HPE, LPE) can be applied for this purpose. Two cases of the feedwater supply to the HPE are considered: a supply of the "cold" feedwater taken from the feedwater pump discharge line and a supply of the "hot" feedwater taken after high pressure heaters. The LPE is fed by condensate taken from the low pressure condensate line. The heat transfer area of economizers is equal in all cases. The heat transfer rate of the LPE is maximized by the lowest possible condensate temperature at the economizer inlet, which is limited by the acid dew point temperature. The power upgrade by the HPE fed with the "cold" feedwater is by 2.5 times higher than in case with the LPE. The plant efficiency upgrade by the LPE is by 20% higher than in case with the HPE fed with "cold" feedwater. The HPE fed with the hot feedwater is not competitive. The presented overall benefits achieved by the HPE fed with the cold feedwater justify its implementation at the aged 620 MWe power plant.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy",
title = "Efficiency and power upgrade at the aged lignite-fired power plant by flue gas waste heat utilization: High pressure versus low pressure economizer installation",
pages = "115980",
volume = "187",
doi = "10.1016/j.energy.2019.115980"
}

Stevanović, V., Petrović, M. M., Wala, T., Milivojević, S., Ilić, M.,& Muszynski, S.. (2019). Efficiency and power upgrade at the aged lignite-fired power plant by flue gas waste heat utilization: High pressure versus low pressure economizer installation. in Energy
Pergamon-Elsevier Science Ltd, Oxford., 187, 115980.
https://doi.org/10.1016/j.energy.2019.115980

Stevanović V, Petrović MM, Wala T, Milivojević S, Ilić M, Muszynski S. Efficiency and power upgrade at the aged lignite-fired power plant by flue gas waste heat utilization: High pressure versus low pressure economizer installation. in Energy. 2019;187:115980.
doi:10.1016/j.energy.2019.115980 .

Stevanović, Vladimir, Petrović, Milan M., Wala, Tadeusz, Milivojević, Sanja, Ilić, Milica, Muszynski, Slawomir, "Efficiency and power upgrade at the aged lignite-fired power plant by flue gas waste heat utilization: High pressure versus low pressure economizer installation" in Energy, 187 (2019):115980,
https://doi.org/10.1016/j.energy.2019.115980 . .

TY  - JOUR
AU  - Ilić, Milica
AU  - Petrović, Milan M.
AU  - Stevanović, Vladimir
PY  - 2019
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/3046
AB  - This paper reviews the current status of boiling heat transfer modelling, discusses the need for its improvement due to unresolved intriguing experimental findings and emergence of novel technical applications and outlines the directions for an advanced modelling approach. The state-of-the-art of computational boiling heat transfer studies is given for: macro-scale boiling models applied in two-fluid liquid-vapour interpenetrating media approach, micro-, meso-scale boiling computations by interface capturing methods, and nano-scale boiling simulations by molecular dynamics tools. Advantages, limitations and shortcomings of each approach, which originate from its grounding formulations, are discussed and illustrated on results obtained by the boiling model developed in our research group. Based on these issues, we stress the importance of adaptation of a multi-scale approach for development of an advanced boiling predictive methodology. A general road-map is outlined for achieving this challenging goal, which should include: improvement of existing methods for computation of boiling on different scales and development of conceptually new algorithms for linking of individual scale methods. As dramatically different time steps of integration for different boiling scales hinder the application of full multi-scale methodology on boiling problems of practical significance, we emphasise the importance of development of another algorithm for the determination of sub-domains within a macro-scale boiling region, which are relevant for conductance of small-scale simulations.
PB  - Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd
T2  - Thermal Science
T1  - Boiling heat transfer modelling a review and future prospectus
EP  - 107
IS  - 1
SP  - 87
VL  - 23
DO  - 10.2298/TSCI180725249I
ER  - 

@article{
author = "Ilić, Milica and Petrović, Milan M. and Stevanović, Vladimir",
year = "2019",
abstract = "This paper reviews the current status of boiling heat transfer modelling, discusses the need for its improvement due to unresolved intriguing experimental findings and emergence of novel technical applications and outlines the directions for an advanced modelling approach. The state-of-the-art of computational boiling heat transfer studies is given for: macro-scale boiling models applied in two-fluid liquid-vapour interpenetrating media approach, micro-, meso-scale boiling computations by interface capturing methods, and nano-scale boiling simulations by molecular dynamics tools. Advantages, limitations and shortcomings of each approach, which originate from its grounding formulations, are discussed and illustrated on results obtained by the boiling model developed in our research group. Based on these issues, we stress the importance of adaptation of a multi-scale approach for development of an advanced boiling predictive methodology. A general road-map is outlined for achieving this challenging goal, which should include: improvement of existing methods for computation of boiling on different scales and development of conceptually new algorithms for linking of individual scale methods. As dramatically different time steps of integration for different boiling scales hinder the application of full multi-scale methodology on boiling problems of practical significance, we emphasise the importance of development of another algorithm for the determination of sub-domains within a macro-scale boiling region, which are relevant for conductance of small-scale simulations.",
publisher = "Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd",
journal = "Thermal Science",
title = "Boiling heat transfer modelling a review and future prospectus",
pages = "107-87",
number = "1",
volume = "23",
doi = "10.2298/TSCI180725249I"
}

Ilić, M., Petrović, M. M.,& Stevanović, V.. (2019). Boiling heat transfer modelling a review and future prospectus. in Thermal Science
Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd., 23(1), 87-107.
https://doi.org/10.2298/TSCI180725249I

Ilić M, Petrović MM, Stevanović V. Boiling heat transfer modelling a review and future prospectus. in Thermal Science. 2019;23(1):87-107.
doi:10.2298/TSCI180725249I .

Ilić, Milica, Petrović, Milan M., Stevanović, Vladimir, "Boiling heat transfer modelling a review and future prospectus" in Thermal Science, 23, no. 1 (2019):87-107,
https://doi.org/10.2298/TSCI180725249I . .

TY  - CONF
AU  - Stevanović, Vladimir
AU  - Petrović, Milan M.
AU  - Milivojević, Sanja
AU  - Ilić, Milica
PY  - 2019
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4490
AB  - Thermal power plants are forced to operate under frequent load changes in energy 
systems with increased share of solar and wind power plants. These load changes 
increase thermal power plant aging and reduce their efficiency. Therefore, solutions for 
energy storage are sought in order to accumulate energy in periods of lower power 
demand and produce excess power in periods of increased demands. In the present 
paper the application of the steam accumulator is evaluated to provide the thermal 
energy storage in the coal-fired thermal power plant and to increase its flexibility under 
the demand for the variable load changes. The steam accumulator is charged during 
periods of lower power demand, as during the night hours, and discharged during peak 
load demands. The steam accumulator is charged by the steam extracted from the steam 
turbine. The steam discharged from the steam accumulator increases the steam flow rate 
through the turbine and the turbine power. Investigated are possible technical solutions 
with the steam accumulator installations in the power plant. The upgrade of power plant 
flexibility by steam accumulator is demonstrated. The corresponding operating 
parameters and energy benefits are calculated.
PB  - Silesian University of Technology (PolSL)
C3  - ECOS 2019 - Proceedings of the 32nd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Wroclaw, Poland, June 23-28, 2019
T1  - Upgrade of the thermal power plant flexibility by the steam accumulator
EP  - 2960
SP  - 2951
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4490
ER  - 

@conference{
author = "Stevanović, Vladimir and Petrović, Milan M. and Milivojević, Sanja and Ilić, Milica",
year = "2019",
abstract = "Thermal power plants are forced to operate under frequent load changes in energy 
systems with increased share of solar and wind power plants. These load changes 
increase thermal power plant aging and reduce their efficiency. Therefore, solutions for 
energy storage are sought in order to accumulate energy in periods of lower power 
demand and produce excess power in periods of increased demands. In the present 
paper the application of the steam accumulator is evaluated to provide the thermal 
energy storage in the coal-fired thermal power plant and to increase its flexibility under 
the demand for the variable load changes. The steam accumulator is charged during 
periods of lower power demand, as during the night hours, and discharged during peak 
load demands. The steam accumulator is charged by the steam extracted from the steam 
turbine. The steam discharged from the steam accumulator increases the steam flow rate 
through the turbine and the turbine power. Investigated are possible technical solutions 
with the steam accumulator installations in the power plant. The upgrade of power plant 
flexibility by steam accumulator is demonstrated. The corresponding operating 
parameters and energy benefits are calculated.",
publisher = "Silesian University of Technology (PolSL)",
journal = "ECOS 2019 - Proceedings of the 32nd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Wroclaw, Poland, June 23-28, 2019",
title = "Upgrade of the thermal power plant flexibility by the steam accumulator",
pages = "2960-2951",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4490"
}

Stevanović, V., Petrović, M. M., Milivojević, S.,& Ilić, M.. (2019). Upgrade of the thermal power plant flexibility by the steam accumulator. in ECOS 2019 - Proceedings of the 32nd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Wroclaw, Poland, June 23-28, 2019
Silesian University of Technology (PolSL)., 2951-2960.
https://hdl.handle.net/21.15107/rcub_machinery_4490

Stevanović V, Petrović MM, Milivojević S, Ilić M. Upgrade of the thermal power plant flexibility by the steam accumulator. in ECOS 2019 - Proceedings of the 32nd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Wroclaw, Poland, June 23-28, 2019. 2019;:2951-2960.
https://hdl.handle.net/21.15107/rcub_machinery_4490 .

Stevanović, Vladimir, Petrović, Milan M., Milivojević, Sanja, Ilić, Milica, "Upgrade of the thermal power plant flexibility by the steam accumulator" in ECOS 2019 - Proceedings of the 32nd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Wroclaw, Poland, June 23-28, 2019 (2019):2951-2960,
https://hdl.handle.net/21.15107/rcub_machinery_4490 .

TY  - JOUR
AU  - Stevanović, Vladimir
AU  - Ilić, Milica
AU  - Djurović, Željko
AU  - Wala, Tadeusz
AU  - Muszynski, Slawomir
AU  - Gajić, Ivan
PY  - 2018
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2939
AB  - Coal-fired thermal power plants (TPPs) had been generally designed to cover base loads of electricity consumption. Nowadays, they should be flexible to participate in the primary frequency control of electric system, especially because of increased number of wind and solar plants with intermittent electricity production. In this paper a new method for the primary power control in TPPs is presented, based on the feedwater flow rate changes between the feedwater heaters (FWHs) and an additional high pressure economizer. The achieved primary power control reserve is demonstrated by measurements at the lignite-fired 650 MWe TPP after its retrofit by the installation of the high pressure economizer in parallel with FWHs. In addition, the TPP transient operation during the primary control are simulated and analyzed with the developed thermal-hydraulic model of the steam turbine heat regeneration system. The control reserve of approximately 10 MWe is shown both by measured data and results of numerical simulations. The control reserve is originally provided by the fresh steam throttling in front of the turbine, but this throttling can be reduced by the application of the new method. The rates of change of wall temperatures of FWHs tubes are within allowed limits during the transients.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Energy
T1  - Primary control reserve of electric power by feedwater flow rate change through an additional economizer - A case study of the thermal power plant "Nikola Tesla B"
EP  - 798
SP  - 782
VL  - 147
DO  - 10.1016/j.energy.2018.01.102
ER  - 

@article{
author = "Stevanović, Vladimir and Ilić, Milica and Djurović, Željko and Wala, Tadeusz and Muszynski, Slawomir and Gajić, Ivan",
year = "2018",
abstract = "Coal-fired thermal power plants (TPPs) had been generally designed to cover base loads of electricity consumption. Nowadays, they should be flexible to participate in the primary frequency control of electric system, especially because of increased number of wind and solar plants with intermittent electricity production. In this paper a new method for the primary power control in TPPs is presented, based on the feedwater flow rate changes between the feedwater heaters (FWHs) and an additional high pressure economizer. The achieved primary power control reserve is demonstrated by measurements at the lignite-fired 650 MWe TPP after its retrofit by the installation of the high pressure economizer in parallel with FWHs. In addition, the TPP transient operation during the primary control are simulated and analyzed with the developed thermal-hydraulic model of the steam turbine heat regeneration system. The control reserve of approximately 10 MWe is shown both by measured data and results of numerical simulations. The control reserve is originally provided by the fresh steam throttling in front of the turbine, but this throttling can be reduced by the application of the new method. The rates of change of wall temperatures of FWHs tubes are within allowed limits during the transients.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy",
title = "Primary control reserve of electric power by feedwater flow rate change through an additional economizer - A case study of the thermal power plant "Nikola Tesla B"",
pages = "798-782",
volume = "147",
doi = "10.1016/j.energy.2018.01.102"
}

Stevanović, V., Ilić, M., Djurović, Ž., Wala, T., Muszynski, S.,& Gajić, I.. (2018). Primary control reserve of electric power by feedwater flow rate change through an additional economizer - A case study of the thermal power plant "Nikola Tesla B". in Energy
Pergamon-Elsevier Science Ltd, Oxford., 147, 782-798.
https://doi.org/10.1016/j.energy.2018.01.102

Stevanović V, Ilić M, Djurović Ž, Wala T, Muszynski S, Gajić I. Primary control reserve of electric power by feedwater flow rate change through an additional economizer - A case study of the thermal power plant "Nikola Tesla B". in Energy. 2018;147:782-798.
doi:10.1016/j.energy.2018.01.102 .

Stevanović, Vladimir, Ilić, Milica, Djurović, Željko, Wala, Tadeusz, Muszynski, Slawomir, Gajić, Ivan, "Primary control reserve of electric power by feedwater flow rate change through an additional economizer - A case study of the thermal power plant "Nikola Tesla B"" in Energy, 147 (2018):782-798,
https://doi.org/10.1016/j.energy.2018.01.102 . .

TY  - JOUR
AU  - Stevanović, Vladimir
AU  - Ilić, Milica
AU  - Đurović, Ž.
AU  - Popović, J.
PY  - 2017
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2503
AB  - Na parnim kotlovima blokova B1 i B2 Termoelektrane 'Nikola Tesla B' je tokom prve faze kapitalnog remonta ugrađen dodatni ekonomajzer, sledstveno 2012. i 2016. godine. Dodatni ekonomajzer se napaja vodom pomoću posebne linije sa potisa napojne pumpe i paralelno je povezan sa delom osnovnog ekonomajzera. Napojna voda se većim delom šalje ka zagrejačima visokog pritiska (ZVP) u okviru osnovne napojne linije, dok se manji deo dovodi do dodatnog ekonomajzera. Dodatni ekonomajzer je povećao stepen korisnosti bloka za preko 0,5 procentnih poena, što omogućava proizvodnju sa oko 10 MW 'zelene' električne snage na račun iskorišćenja otpadne toplote dimnih gasova. Pored ovih značajnih energetskih, pratećih ekoloških i finansijskih efekata, ugradnja dodatnog ekonomajzera omogućava i primarnu i sekundarnu regulaciju snage. Povećanjem protoka napojne vode kroz dodatni ekonomajzer smanjuje se protok napojne vode kroz zagrejače visokog pritiska, sledstveno se smanjuje oduzimanje pare nakon ekspanzije u turbini visokog pritiska i oduzimanje na turbini srednjeg pritiska, a samim tim se povećava snaga turbine.U radu su prikazani postupak i rezultati numeričke simulacije promene snage parnih blokova B1 i B2 sa promenom protoka napojne vode kroz dodatni ekonomajzer. Protok napojne vode kroz dodatni ekonomajzer se sa početne vrednosti, koja iznosi 25% od protoka vode koja se dovodi isparivaču kotla, povećava na 40% za 15s. Dobijeni rezultati pokazuju da se usled smanjenja protoka napojne vode kroz ZVP smanjuje njihova toplotna snaga za oko 20%. Smanjena kondenzacija dovodi do povećanja pritisaka na parnoj strani ZVP, što smanjuje oduzimanje pare iz turbine. Usled smanjenog oduzimanja, povećava se protok kroz turbinu srednjeg i turbinu niskog pritiska, tako da se ukupna snage turbine povećava za približno 10MW. Brzina promene temperature metala cevi ZVP je u dozvoljenim granicama. Dobijeni rezultati pokazuju da se promenom protoka napojne vode kroz dodatni ekonomajzer može ostvariti primarna i sekundarna regulacija snage blokova, pri čemu se ne menjaju pritisak, temperatura i protok sveže pare. Ključne reči: parni blok, ekonomajzer, zagrejači visokog pritiska, oduzimanje pare, snaga turbine.
PB  - Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd i Društvo termičara Srbije, Beograd
T2  - Termotehnika
T1  - Primarna i sekundarna regulacija snage na blokovima tent B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer
EP  - 57
IS  - 1-4
SP  - 49
VL  - 43
DO  - 10.5937/termoteh1704049S
ER  - 

@article{
author = "Stevanović, Vladimir and Ilić, Milica and Đurović, Ž. and Popović, J.",
year = "2017",
abstract = "Na parnim kotlovima blokova B1 i B2 Termoelektrane 'Nikola Tesla B' je tokom prve faze kapitalnog remonta ugrađen dodatni ekonomajzer, sledstveno 2012. i 2016. godine. Dodatni ekonomajzer se napaja vodom pomoću posebne linije sa potisa napojne pumpe i paralelno je povezan sa delom osnovnog ekonomajzera. Napojna voda se većim delom šalje ka zagrejačima visokog pritiska (ZVP) u okviru osnovne napojne linije, dok se manji deo dovodi do dodatnog ekonomajzera. Dodatni ekonomajzer je povećao stepen korisnosti bloka za preko 0,5 procentnih poena, što omogućava proizvodnju sa oko 10 MW 'zelene' električne snage na račun iskorišćenja otpadne toplote dimnih gasova. Pored ovih značajnih energetskih, pratećih ekoloških i finansijskih efekata, ugradnja dodatnog ekonomajzera omogućava i primarnu i sekundarnu regulaciju snage. Povećanjem protoka napojne vode kroz dodatni ekonomajzer smanjuje se protok napojne vode kroz zagrejače visokog pritiska, sledstveno se smanjuje oduzimanje pare nakon ekspanzije u turbini visokog pritiska i oduzimanje na turbini srednjeg pritiska, a samim tim se povećava snaga turbine.U radu su prikazani postupak i rezultati numeričke simulacije promene snage parnih blokova B1 i B2 sa promenom protoka napojne vode kroz dodatni ekonomajzer. Protok napojne vode kroz dodatni ekonomajzer se sa početne vrednosti, koja iznosi 25% od protoka vode koja se dovodi isparivaču kotla, povećava na 40% za 15s. Dobijeni rezultati pokazuju da se usled smanjenja protoka napojne vode kroz ZVP smanjuje njihova toplotna snaga za oko 20%. Smanjena kondenzacija dovodi do povećanja pritisaka na parnoj strani ZVP, što smanjuje oduzimanje pare iz turbine. Usled smanjenog oduzimanja, povećava se protok kroz turbinu srednjeg i turbinu niskog pritiska, tako da se ukupna snage turbine povećava za približno 10MW. Brzina promene temperature metala cevi ZVP je u dozvoljenim granicama. Dobijeni rezultati pokazuju da se promenom protoka napojne vode kroz dodatni ekonomajzer može ostvariti primarna i sekundarna regulacija snage blokova, pri čemu se ne menjaju pritisak, temperatura i protok sveže pare. Ključne reči: parni blok, ekonomajzer, zagrejači visokog pritiska, oduzimanje pare, snaga turbine.",
publisher = "Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd i Društvo termičara Srbije, Beograd",
journal = "Termotehnika",
title = "Primarna i sekundarna regulacija snage na blokovima tent B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer",
pages = "57-49",
number = "1-4",
volume = "43",
doi = "10.5937/termoteh1704049S"
}

Stevanović, V., Ilić, M., Đurović, Ž.,& Popović, J.. (2017). Primarna i sekundarna regulacija snage na blokovima tent B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer. in Termotehnika
Univerzitet u Beogradu - Institut za nuklearne nauke Vinča, Beograd i Društvo termičara Srbije, Beograd., 43(1-4), 49-57.
https://doi.org/10.5937/termoteh1704049S

Stevanović V, Ilić M, Đurović Ž, Popović J. Primarna i sekundarna regulacija snage na blokovima tent B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer. in Termotehnika. 2017;43(1-4):49-57.
doi:10.5937/termoteh1704049S .

Stevanović, Vladimir, Ilić, Milica, Đurović, Ž., Popović, J., "Primarna i sekundarna regulacija snage na blokovima tent B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer" in Termotehnika, 43, no. 1-4 (2017):49-57,
https://doi.org/10.5937/termoteh1704049S . .

TY  - CONF
AU  - Stevanović, Vladimir
AU  - Ilić, Milica
AU  - Đurović, Željko
AU  - Popović, Jelena
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/4686
AB  - Ovaj rad se bavi numeričkim modeliranjem promene snage parnih blokova B1 i B2 u Termoelektrani „Nikola Tesla B“ koje su ostvarene promenom protoka napojne vode kroz dodatni ekonomajzer. Modelirano je zagrevanje napojne vode u zagrejačima visokog pritiska (ZVP), oduzimanja pare koja se iz turbina vode ka ZVP i promena snage turbine shodno promeni protoka pare. Obuhvaćeni su termohidraulički procesi u ZVP, kao što su zagrevanje napojne vode pregrejanom parom iz oduzimanja turbine srednjeg pritiska, zagrevanje napojne vode u ZVP kondenzacijom pare iz oduzimanja turbine srednjeg pritiska, nestacionarna promena pritiska na parnoj strani ZVP kao i nestacionarna promena temperature metala cevi. Matematički model je izveden iz jednačina održanja mase i energije koje rezultuju u sistem diferencijalnih jednačina za odredjivanje temperature vode i temperature zida duž cevi u svim ZVP, temperature pare duž cevi u zagrejaču u kojem se vrši hladjenje pregrejane pare, kao i pritisaka na parnoj strani ZVP u kojima se vrši kondenzacija. Maseni protoci pare iz turbinskih oduzimanja su odredjeni hidrauličkim karakteristikama parovoda i razlikama pritiska na oduzimanju i pritiska u ZVP. Modelom je sprovedena simulacija nestacionarnog zagrevanja pri smanjenom protoku napojne vode u ZVP usled povećanja protoka u dodatnom ekonomajzeru.
PB  - Društvo termičara Srbije
C3  - Međunarodna Konferencija Elektrane 2016, Zlatibor, Srbija, 23-26. novembar 2016.
T1  - Primarna i sekundarna regulacija snage na blokovima TENT B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer
SP  - E2016-052
UR  - https://hdl.handle.net/21.15107/rcub_machinery_4686
ER  - 

@conference{
author = "Stevanović, Vladimir and Ilić, Milica and Đurović, Željko and Popović, Jelena",
year = "2016",
abstract = "Ovaj rad se bavi numeričkim modeliranjem promene snage parnih blokova B1 i B2 u Termoelektrani „Nikola Tesla B“ koje su ostvarene promenom protoka napojne vode kroz dodatni ekonomajzer. Modelirano je zagrevanje napojne vode u zagrejačima visokog pritiska (ZVP), oduzimanja pare koja se iz turbina vode ka ZVP i promena snage turbine shodno promeni protoka pare. Obuhvaćeni su termohidraulički procesi u ZVP, kao što su zagrevanje napojne vode pregrejanom parom iz oduzimanja turbine srednjeg pritiska, zagrevanje napojne vode u ZVP kondenzacijom pare iz oduzimanja turbine srednjeg pritiska, nestacionarna promena pritiska na parnoj strani ZVP kao i nestacionarna promena temperature metala cevi. Matematički model je izveden iz jednačina održanja mase i energije koje rezultuju u sistem diferencijalnih jednačina za odredjivanje temperature vode i temperature zida duž cevi u svim ZVP, temperature pare duž cevi u zagrejaču u kojem se vrši hladjenje pregrejane pare, kao i pritisaka na parnoj strani ZVP u kojima se vrši kondenzacija. Maseni protoci pare iz turbinskih oduzimanja su odredjeni hidrauličkim karakteristikama parovoda i razlikama pritiska na oduzimanju i pritiska u ZVP. Modelom je sprovedena simulacija nestacionarnog zagrevanja pri smanjenom protoku napojne vode u ZVP usled povećanja protoka u dodatnom ekonomajzeru.",
publisher = "Društvo termičara Srbije",
journal = "Međunarodna Konferencija Elektrane 2016, Zlatibor, Srbija, 23-26. novembar 2016.",
title = "Primarna i sekundarna regulacija snage na blokovima TENT B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer",
pages = "E2016-052",
url = "https://hdl.handle.net/21.15107/rcub_machinery_4686"
}

Stevanović, V., Ilić, M., Đurović, Ž.,& Popović, J.. (2016). Primarna i sekundarna regulacija snage na blokovima TENT B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer. in Međunarodna Konferencija Elektrane 2016, Zlatibor, Srbija, 23-26. novembar 2016.
Društvo termičara Srbije., E2016-052.
https://hdl.handle.net/21.15107/rcub_machinery_4686

Stevanović V, Ilić M, Đurović Ž, Popović J. Primarna i sekundarna regulacija snage na blokovima TENT B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer. in Međunarodna Konferencija Elektrane 2016, Zlatibor, Srbija, 23-26. novembar 2016.. 2016;:E2016-052.
https://hdl.handle.net/21.15107/rcub_machinery_4686 .

Stevanović, Vladimir, Ilić, Milica, Đurović, Željko, Popović, Jelena, "Primarna i sekundarna regulacija snage na blokovima TENT B1 i B2 promenom protoka napojne vode kroz dodatni ekonomajzer" in Međunarodna Konferencija Elektrane 2016, Zlatibor, Srbija, 23-26. novembar 2016. (2016):E2016-052,
https://hdl.handle.net/21.15107/rcub_machinery_4686 .

TY  - JOUR
AU  - Ilić, Milica
AU  - Schlindwein, G.
AU  - Meyder, R.
AU  - Kuhn, T.
AU  - Albrecht, O.
AU  - Zinn, Kevin
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2444
AB  - This paper deals with investigations of flow distribution in the coolant system of the Helium-Cooled Pebble -Bed Test Blanket Module (HCPB TBM) for ITER. The investigations have been performed by manufacturing and testing of an experimental facility named GRICAMAN. The facility involves the upper poloidal half of HCPB TBM bounded at outlets of the first wall channels, at outlet of by-pass pipe and at outlets of cooling channels in breeding units. In this way, the focus is placed on the flow distribution in two mid manifolds of the 4-manifold system: (i) manifold 2 to which outlets of the first wall channels and inlet of by-pass pipe are attached and (ii) manifold 3 which supplies channels in breeding units with helium coolant. These two manifolds are connected with cooling channels in vertical/horizontal grids and caps. The experimental facility has been built keeping the internal structure of manifold 2 and manifold 3 exactly as designed in HCPB TBM. The cooling channels in stiffening grids, caps and breeding units are substituted by so-called equivalent channels which provide the same hydraulic resistance and inlet/outlet conditions, but have significantly simpler geometry than the real channels. Using the conditions of flow similarity, the air pressurized at 0.3 MPa and at ambient temperature has been used as working fluid instead of HCPB TBM helium coolant at 8 MPa and an average temperature of 370 degrees C. The flow distribution has been determined by flow rate measurements at each of 28 equivalent channels, while the pressure distribution has been obtained measuring differential pressure at more than 250 positions. The measured data have shown that critical for flow distribution in manifold 2 are grid/cap channels attached to the manifold regions adjacent to the first wall. In these regions high velocity jets exiting from the first wall induce low pressure at the channel inlets and, therefore, lower flow supply. Making resistance to high velocity streams from the first wall the perforated penetrations of horizontal grid plates which divide the manifold 2 into chambers are crucial for pressure homogenizing and reasonable flow distribution among channels attached to the central part of manifold 2. In the major part of manifold 3 very small differential pressures were measured except for some breeding unit inlets where strong pressure peaks were recorded. Nevertheless, no dramatic differences were found between experimentally determined flow rates in individual breeding unit channels.
PB  - Elsevier Science Sa, Lausanne
T2  - Fusion Engineering and Design
T1  - Experimental investigations of flow distribution in coolant system of Helium-Cooled-Pebble-Bed Test Blanket Module
EP  - 68
SP  - 53
VL  - 103
DO  - 10.1016/j.fusengdes.2015.12.026
ER  - 

@article{
author = "Ilić, Milica and Schlindwein, G. and Meyder, R. and Kuhn, T. and Albrecht, O. and Zinn, Kevin",
year = "2016",
abstract = "This paper deals with investigations of flow distribution in the coolant system of the Helium-Cooled Pebble -Bed Test Blanket Module (HCPB TBM) for ITER. The investigations have been performed by manufacturing and testing of an experimental facility named GRICAMAN. The facility involves the upper poloidal half of HCPB TBM bounded at outlets of the first wall channels, at outlet of by-pass pipe and at outlets of cooling channels in breeding units. In this way, the focus is placed on the flow distribution in two mid manifolds of the 4-manifold system: (i) manifold 2 to which outlets of the first wall channels and inlet of by-pass pipe are attached and (ii) manifold 3 which supplies channels in breeding units with helium coolant. These two manifolds are connected with cooling channels in vertical/horizontal grids and caps. The experimental facility has been built keeping the internal structure of manifold 2 and manifold 3 exactly as designed in HCPB TBM. The cooling channels in stiffening grids, caps and breeding units are substituted by so-called equivalent channels which provide the same hydraulic resistance and inlet/outlet conditions, but have significantly simpler geometry than the real channels. Using the conditions of flow similarity, the air pressurized at 0.3 MPa and at ambient temperature has been used as working fluid instead of HCPB TBM helium coolant at 8 MPa and an average temperature of 370 degrees C. The flow distribution has been determined by flow rate measurements at each of 28 equivalent channels, while the pressure distribution has been obtained measuring differential pressure at more than 250 positions. The measured data have shown that critical for flow distribution in manifold 2 are grid/cap channels attached to the manifold regions adjacent to the first wall. In these regions high velocity jets exiting from the first wall induce low pressure at the channel inlets and, therefore, lower flow supply. Making resistance to high velocity streams from the first wall the perforated penetrations of horizontal grid plates which divide the manifold 2 into chambers are crucial for pressure homogenizing and reasonable flow distribution among channels attached to the central part of manifold 2. In the major part of manifold 3 very small differential pressures were measured except for some breeding unit inlets where strong pressure peaks were recorded. Nevertheless, no dramatic differences were found between experimentally determined flow rates in individual breeding unit channels.",
publisher = "Elsevier Science Sa, Lausanne",
journal = "Fusion Engineering and Design",
title = "Experimental investigations of flow distribution in coolant system of Helium-Cooled-Pebble-Bed Test Blanket Module",
pages = "68-53",
volume = "103",
doi = "10.1016/j.fusengdes.2015.12.026"
}

Ilić, M., Schlindwein, G., Meyder, R., Kuhn, T., Albrecht, O.,& Zinn, K.. (2016). Experimental investigations of flow distribution in coolant system of Helium-Cooled-Pebble-Bed Test Blanket Module. in Fusion Engineering and Design
Elsevier Science Sa, Lausanne., 103, 53-68.
https://doi.org/10.1016/j.fusengdes.2015.12.026

Ilić M, Schlindwein G, Meyder R, Kuhn T, Albrecht O, Zinn K. Experimental investigations of flow distribution in coolant system of Helium-Cooled-Pebble-Bed Test Blanket Module. in Fusion Engineering and Design. 2016;103:53-68.
doi:10.1016/j.fusengdes.2015.12.026 .

Ilić, Milica, Schlindwein, G., Meyder, R., Kuhn, T., Albrecht, O., Zinn, Kevin, "Experimental investigations of flow distribution in coolant system of Helium-Cooled-Pebble-Bed Test Blanket Module" in Fusion Engineering and Design, 103 (2016):53-68,
https://doi.org/10.1016/j.fusengdes.2015.12.026 . .

TY  - JOUR
AU  - Cacuci, Dan G.
AU  - Ilić, Milica
AU  - Badea, Madalina C.
AU  - Fang, Ruixian
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2415
AB  - This work presents numerical results for the second-order sensitivities of the temperature distributions in a paradigm benchmark problem modeling heat transport in a reactor fuel rod and the surrounding coolant channel. The development of this benchmark problem was originally motivated by the need to very the numerical results for the first-order sensitivities produced by the FLUENT Adjoint Solver for the G4M Reactor preconceptual design and for a test section designed to investigate thermal-hydraulic phenomena of importance to the safety considerations for this reactor. The relative sensitivities computed using the FLUENT Adjoint Solver had significantly large values, of order unity, thereby motivating the need to investigate the impact of nonlinearities, the bulk of which are quantified by the responses' second-order sensitivities. However, the current FLUENT Adjoint Solver cannot compute second-order sensitivities, which in turn motivated the derivation of these sensitivities for the heat transport benchmark problem by using the recently developed second-order adjoint sensitivity analysis methodology. The numerical results obtained in this work used thermal-hydraulic parameters having mean values and standard deviations typical of the conditions found in the preliminary conceptual design of the G4M Reactor. These results show that the contributions of the second-order sensitivities to the expected values of the temperature distributions within the rod, on the rod's surface, and in the coolant are  lt 1% of the corresponding computed nominal values. Similarly, the contributions of the second-order sensitivities to the standard deviations of the temperature distributions within the rod, on the rod's surface, and in the coolant are also 1%, or less, of the corresponding contributions stemming from the first-order sensitivities, to the respective total standard deviations (uncertainties). These results justify the use of first-order sensitivities for computing expected uncertainties in the temperature distributions within the benchmark problem and, hence, mutatis mutandis, for the test section and G4M Reactor design. On the other hand, the most important impact of the second-order sensitivities is the positive skewnesses they induce in the temperature distributions within the rod, on the rod's surface, and in the coolant. This implies that all three temperature distributions, particularly in the heated rod, are non-Gaussian, asymmetric, and skewed toward temperatures higher than the respective mean temperatures.
PB  - Amer Nuclear Soc, La Grange Pk
T2  - Nuclear Science and Engineering
T1  - Second-Order Adjoint Sensitivity and Uncertainty Analysis of a Heat Transport Benchmark Problem-II: Computational Results Using G4M Reactor Thermal-Hydraulic Parameters
EP  - 38
IS  - 1
SP  - 22
VL  - 183
DO  - 10.13182/NSE15-80
ER  - 

@article{
author = "Cacuci, Dan G. and Ilić, Milica and Badea, Madalina C. and Fang, Ruixian",
year = "2016",
abstract = "This work presents numerical results for the second-order sensitivities of the temperature distributions in a paradigm benchmark problem modeling heat transport in a reactor fuel rod and the surrounding coolant channel. The development of this benchmark problem was originally motivated by the need to very the numerical results for the first-order sensitivities produced by the FLUENT Adjoint Solver for the G4M Reactor preconceptual design and for a test section designed to investigate thermal-hydraulic phenomena of importance to the safety considerations for this reactor. The relative sensitivities computed using the FLUENT Adjoint Solver had significantly large values, of order unity, thereby motivating the need to investigate the impact of nonlinearities, the bulk of which are quantified by the responses' second-order sensitivities. However, the current FLUENT Adjoint Solver cannot compute second-order sensitivities, which in turn motivated the derivation of these sensitivities for the heat transport benchmark problem by using the recently developed second-order adjoint sensitivity analysis methodology. The numerical results obtained in this work used thermal-hydraulic parameters having mean values and standard deviations typical of the conditions found in the preliminary conceptual design of the G4M Reactor. These results show that the contributions of the second-order sensitivities to the expected values of the temperature distributions within the rod, on the rod's surface, and in the coolant are  lt 1% of the corresponding computed nominal values. Similarly, the contributions of the second-order sensitivities to the standard deviations of the temperature distributions within the rod, on the rod's surface, and in the coolant are also 1%, or less, of the corresponding contributions stemming from the first-order sensitivities, to the respective total standard deviations (uncertainties). These results justify the use of first-order sensitivities for computing expected uncertainties in the temperature distributions within the benchmark problem and, hence, mutatis mutandis, for the test section and G4M Reactor design. On the other hand, the most important impact of the second-order sensitivities is the positive skewnesses they induce in the temperature distributions within the rod, on the rod's surface, and in the coolant. This implies that all three temperature distributions, particularly in the heated rod, are non-Gaussian, asymmetric, and skewed toward temperatures higher than the respective mean temperatures.",
publisher = "Amer Nuclear Soc, La Grange Pk",
journal = "Nuclear Science and Engineering",
title = "Second-Order Adjoint Sensitivity and Uncertainty Analysis of a Heat Transport Benchmark Problem-II: Computational Results Using G4M Reactor Thermal-Hydraulic Parameters",
pages = "38-22",
number = "1",
volume = "183",
doi = "10.13182/NSE15-80"
}

Cacuci, D. G., Ilić, M., Badea, M. C.,& Fang, R.. (2016). Second-Order Adjoint Sensitivity and Uncertainty Analysis of a Heat Transport Benchmark Problem-II: Computational Results Using G4M Reactor Thermal-Hydraulic Parameters. in Nuclear Science and Engineering
Amer Nuclear Soc, La Grange Pk., 183(1), 22-38.
https://doi.org/10.13182/NSE15-80

Cacuci DG, Ilić M, Badea MC, Fang R. Second-Order Adjoint Sensitivity and Uncertainty Analysis of a Heat Transport Benchmark Problem-II: Computational Results Using G4M Reactor Thermal-Hydraulic Parameters. in Nuclear Science and Engineering. 2016;183(1):22-38.
doi:10.13182/NSE15-80 .

Cacuci, Dan G., Ilić, Milica, Badea, Madalina C., Fang, Ruixian, "Second-Order Adjoint Sensitivity and Uncertainty Analysis of a Heat Transport Benchmark Problem-II: Computational Results Using G4M Reactor Thermal-Hydraulic Parameters" in Nuclear Science and Engineering, 183, no. 1 (2016):22-38,
https://doi.org/10.13182/NSE15-80 . .

TY  - JOUR
AU  - Cacuci, Dan G.
AU  - Fang, Ruixian
AU  - Ilić, Milica
AU  - Badea, Madalina C.
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2406
AB  - This work presents a heat transport benchmark problem when modeling the steady-state radial conduction in a fuel rod coupled to the axial heat convection in a coolant surrounding the rod and flowing along it. This benchmark problem admits exact analytical solutions for the spatially dependent temperature distributions within the rod and the surrounding coolant. The adjoint sensitivity analysis methodology (ASAM) is applied to compute the analytical expressions of the adjoint state functions for this benchmark problem. In turn, these adjoint state functions are used to compute exactly the first-order sensitivities of the various temperature distributions to the benchmark's thermal-hydraulics parameters. Locations of particular importance are those where the rod, the rod surface, and the coolant temperatures attain their maxima. The analytical expressions of the benchmark sensitivities thus obtained are subsequently used to compute numerical values of the sensitivities of the various temperature distributions that would arise in the preliminary design of the G4M Reactor to thermal-hydraulics parameters characteristic of this reactor. The exact benchmark sensitivities are used for verifying the numerical results produced by the FLUENT Adjoint Solver, a code that has been used for computing thermal-hydraulics processes within the G4M Reactor. This solution verification process indicates that the current FLUENT Adjoint Solver cannot compute any sensitivities for the temperature distribution within the solid rod. However, the FLUENT Adjoint Solver is capable of computing the sensitivities of fluid temperatures to boundary parameters (e.g., boundary temperature, boundary velocity, and boundary pressure), but yields accurate results only for the sensitivities of the fluid outlet temperature and the maximum rod surface temperature to the inlet temperature and inlet velocity, respectively. Even for these sensitivities, the FLUENT Adjoint Solver typically needed over 20 000 iterations to converge to the correct solution. In fact, if the exact sensitivity results had not been known a priori, employment of a user-defined iteration-stopping criterion would have likely produced an erroneous result, which would have been noticed by the user only if the user had had the foresight of computing the respective sensitivities independently, via finite-differences using FLUENT recomputations. Several other important sensitivities, including sensitivities to the boundary heat transfer coefficient and sensitivities to material properties (thermal conductivity and specific heat), cannot be obtained from the current FLUENT postprocessing output. Ideally, the solution verification of the adjoint functions produced by the FLUENT Adjoint Solver would be performed by directly comparing these to the exact expressions of the adjoint functions for the benchmark problem. Such a direct comparison and, hence, a direct solution verification of the FLUENT Adjoint Solver, is currently not possible, because the current FLUENT Adjoint Solver does not provide access to the adjoint functions it computes. Therefore, the results produced by the FLUENT Adjoint Solver can only be verified indirectly, by comparing temperature sensitivities computed using the FLUENT Adjoint Solver to the exact results obtained from the analytical expression of the corresponding benchmark sensitivities. This situation further underscores the need for developing additional thermal-hydraulics benchmark problems that admit exact solutions.
PB  - Amer Nuclear Soc, La Grange Pk
T2  - Nuclear Science and Engineering
T1  - A Heat Conduction and Convection Analytical Benchmark for Adjoint Solution Verification of Computational Fluid Dynamics Codes Used in Reactor Design
EP  - 480
IS  - 4
SP  - 452
VL  - 182
DO  - 10.13182/NSE15-69
ER  - 

@article{
author = "Cacuci, Dan G. and Fang, Ruixian and Ilić, Milica and Badea, Madalina C.",
year = "2016",
abstract = "This work presents a heat transport benchmark problem when modeling the steady-state radial conduction in a fuel rod coupled to the axial heat convection in a coolant surrounding the rod and flowing along it. This benchmark problem admits exact analytical solutions for the spatially dependent temperature distributions within the rod and the surrounding coolant. The adjoint sensitivity analysis methodology (ASAM) is applied to compute the analytical expressions of the adjoint state functions for this benchmark problem. In turn, these adjoint state functions are used to compute exactly the first-order sensitivities of the various temperature distributions to the benchmark's thermal-hydraulics parameters. Locations of particular importance are those where the rod, the rod surface, and the coolant temperatures attain their maxima. The analytical expressions of the benchmark sensitivities thus obtained are subsequently used to compute numerical values of the sensitivities of the various temperature distributions that would arise in the preliminary design of the G4M Reactor to thermal-hydraulics parameters characteristic of this reactor. The exact benchmark sensitivities are used for verifying the numerical results produced by the FLUENT Adjoint Solver, a code that has been used for computing thermal-hydraulics processes within the G4M Reactor. This solution verification process indicates that the current FLUENT Adjoint Solver cannot compute any sensitivities for the temperature distribution within the solid rod. However, the FLUENT Adjoint Solver is capable of computing the sensitivities of fluid temperatures to boundary parameters (e.g., boundary temperature, boundary velocity, and boundary pressure), but yields accurate results only for the sensitivities of the fluid outlet temperature and the maximum rod surface temperature to the inlet temperature and inlet velocity, respectively. Even for these sensitivities, the FLUENT Adjoint Solver typically needed over 20 000 iterations to converge to the correct solution. In fact, if the exact sensitivity results had not been known a priori, employment of a user-defined iteration-stopping criterion would have likely produced an erroneous result, which would have been noticed by the user only if the user had had the foresight of computing the respective sensitivities independently, via finite-differences using FLUENT recomputations. Several other important sensitivities, including sensitivities to the boundary heat transfer coefficient and sensitivities to material properties (thermal conductivity and specific heat), cannot be obtained from the current FLUENT postprocessing output. Ideally, the solution verification of the adjoint functions produced by the FLUENT Adjoint Solver would be performed by directly comparing these to the exact expressions of the adjoint functions for the benchmark problem. Such a direct comparison and, hence, a direct solution verification of the FLUENT Adjoint Solver, is currently not possible, because the current FLUENT Adjoint Solver does not provide access to the adjoint functions it computes. Therefore, the results produced by the FLUENT Adjoint Solver can only be verified indirectly, by comparing temperature sensitivities computed using the FLUENT Adjoint Solver to the exact results obtained from the analytical expression of the corresponding benchmark sensitivities. This situation further underscores the need for developing additional thermal-hydraulics benchmark problems that admit exact solutions.",
publisher = "Amer Nuclear Soc, La Grange Pk",
journal = "Nuclear Science and Engineering",
title = "A Heat Conduction and Convection Analytical Benchmark for Adjoint Solution Verification of Computational Fluid Dynamics Codes Used in Reactor Design",
pages = "480-452",
number = "4",
volume = "182",
doi = "10.13182/NSE15-69"
}

Cacuci, D. G., Fang, R., Ilić, M.,& Badea, M. C.. (2016). A Heat Conduction and Convection Analytical Benchmark for Adjoint Solution Verification of Computational Fluid Dynamics Codes Used in Reactor Design. in Nuclear Science and Engineering
Amer Nuclear Soc, La Grange Pk., 182(4), 452-480.
https://doi.org/10.13182/NSE15-69

Cacuci DG, Fang R, Ilić M, Badea MC. A Heat Conduction and Convection Analytical Benchmark for Adjoint Solution Verification of Computational Fluid Dynamics Codes Used in Reactor Design. in Nuclear Science and Engineering. 2016;182(4):452-480.
doi:10.13182/NSE15-69 .

Cacuci, Dan G., Fang, Ruixian, Ilić, Milica, Badea, Madalina C., "A Heat Conduction and Convection Analytical Benchmark for Adjoint Solution Verification of Computational Fluid Dynamics Codes Used in Reactor Design" in Nuclear Science and Engineering, 182, no. 4 (2016):452-480,
https://doi.org/10.13182/NSE15-69 . .

TY  - JOUR
AU  - Arbeiter, Frederik
AU  - Bachmann, Christian
AU  - Chen, Yuming
AU  - Ilić, Milica
AU  - Schwab, Florian
AU  - Sieglin, Bernhard
AU  - Wenninger, Ronald
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2460
AB  - The first wall (FW) of DEMO is a component with high thermal loads. The cooling of the FW has to comply with the material's upper and lower temperature limits and requirements from stress assessment, like low temperature gradients. Also, the cooling has to be integrated into the balance-of-plant, in a sense to deliver exergy to the power cycle and require a limited pumping power for coolant circulation. This paper deals with the basics of FW cooling and proposes optimization approaches. The effectiveness of several heat transfer enhancement techniques is investigated for the use in helium cooled FW designs for DEMO. Among these are wall-mounted ribs,. large scale mixing devices and modified hydraulic diameter. Their performance is assessed by computational fluid dynamics (CFD), and heat transfer coefficients and pressure drop are compared. Based on the results, an extrapolation to high heat fluxes is tried to estimate the higher limits of cooling capabilities.
PB  - Elsevier Science Sa, Lausanne
T2  - Fusion Engineering and Design
T1  - Thermal-hydraulics of helium cooled First Wall channels and scoping investigations on performance improvement by application of ribs and mixing devices
EP  - 1129
SP  - 1123
VL  - 109
DO  - 10.1016/j.fusengdes.2016.01.008
ER  - 

@article{
author = "Arbeiter, Frederik and Bachmann, Christian and Chen, Yuming and Ilić, Milica and Schwab, Florian and Sieglin, Bernhard and Wenninger, Ronald",
year = "2016",
abstract = "The first wall (FW) of DEMO is a component with high thermal loads. The cooling of the FW has to comply with the material's upper and lower temperature limits and requirements from stress assessment, like low temperature gradients. Also, the cooling has to be integrated into the balance-of-plant, in a sense to deliver exergy to the power cycle and require a limited pumping power for coolant circulation. This paper deals with the basics of FW cooling and proposes optimization approaches. The effectiveness of several heat transfer enhancement techniques is investigated for the use in helium cooled FW designs for DEMO. Among these are wall-mounted ribs,. large scale mixing devices and modified hydraulic diameter. Their performance is assessed by computational fluid dynamics (CFD), and heat transfer coefficients and pressure drop are compared. Based on the results, an extrapolation to high heat fluxes is tried to estimate the higher limits of cooling capabilities.",
publisher = "Elsevier Science Sa, Lausanne",
journal = "Fusion Engineering and Design",
title = "Thermal-hydraulics of helium cooled First Wall channels and scoping investigations on performance improvement by application of ribs and mixing devices",
pages = "1129-1123",
volume = "109",
doi = "10.1016/j.fusengdes.2016.01.008"
}

Arbeiter, F., Bachmann, C., Chen, Y., Ilić, M., Schwab, F., Sieglin, B.,& Wenninger, R.. (2016). Thermal-hydraulics of helium cooled First Wall channels and scoping investigations on performance improvement by application of ribs and mixing devices. in Fusion Engineering and Design
Elsevier Science Sa, Lausanne., 109, 1123-1129.
https://doi.org/10.1016/j.fusengdes.2016.01.008

Arbeiter F, Bachmann C, Chen Y, Ilić M, Schwab F, Sieglin B, Wenninger R. Thermal-hydraulics of helium cooled First Wall channels and scoping investigations on performance improvement by application of ribs and mixing devices. in Fusion Engineering and Design. 2016;109:1123-1129.
doi:10.1016/j.fusengdes.2016.01.008 .

Arbeiter, Frederik, Bachmann, Christian, Chen, Yuming, Ilić, Milica, Schwab, Florian, Sieglin, Bernhard, Wenninger, Ronald, "Thermal-hydraulics of helium cooled First Wall channels and scoping investigations on performance improvement by application of ribs and mixing devices" in Fusion Engineering and Design, 109 (2016):1123-1129,
https://doi.org/10.1016/j.fusengdes.2016.01.008 . .

TY  - JOUR
AU  - Ilić, Milica
AU  - Messemer, G.
AU  - Zinn, Kevin
AU  - Meyder, R.
AU  - Kecskes, S.
AU  - Kiss, Bela
PY  - 2015
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2217
AB  - This paper deals with cooling of the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module (HCPB TBM) for ITER. The first wall cooling is an important investigation issue due to an extreme asymmetry of heat loads: heat flux on the plasma facing side is several times stronger than the one on the side which faces breeding units. Our preliminary 3D CFD analysis revealed that under such conditions the heat transfer coefficient is significantly lower than predicted by common heat transfer correlations (see Ilic et al., 2006). For an experimental validation of these results HETRA (HEat TRAnsfer)test section has been designed and built at the Institute for Neutron Physics and Reactor Technology in Karlsruhe Institute of Technology. The HETRA test section involves in full scale one U-pass of the cooling channel in the first wall of HCPB TBM Version 1.1 (see Meyder et al., 2005). The HCPB TBM relevant experimental conditions have been provided: test channel made of Eurofer steel, helium coolant at pressure of 8 MPa and inlet temperature of 300 C and heat flux of 270 kW/m(2) at the channel surface representing plasma facing side of the first wall. Test channels with hydraulically smooth and with hydraulically rough walls have been built. At each test channel the temperature of Eurofer walls has been measured at 60 positions, For numerical investigations the 3D CFD modelling with the code STAR CD has been applied. This paper is the first report on this study and presents the development of the test section and of the 3D CFD model. The analyses of the obtained experimental and computational results are presented in the second report (see Ilic et al., 2014).
PB  - Elsevier Science Sa, Lausanne
T2  - Fusion Engineering and Design
T1  - Experimental and numerical investigations of heat transfer in the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module - Part 1: Presentation of test section and 3D CFD model
EP  - 36
SP  - 29
VL  - 90
DO  - 10.1016/j.fusengdes.2014.11.005
ER  - 

@article{
author = "Ilić, Milica and Messemer, G. and Zinn, Kevin and Meyder, R. and Kecskes, S. and Kiss, Bela",
year = "2015",
abstract = "This paper deals with cooling of the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module (HCPB TBM) for ITER. The first wall cooling is an important investigation issue due to an extreme asymmetry of heat loads: heat flux on the plasma facing side is several times stronger than the one on the side which faces breeding units. Our preliminary 3D CFD analysis revealed that under such conditions the heat transfer coefficient is significantly lower than predicted by common heat transfer correlations (see Ilic et al., 2006). For an experimental validation of these results HETRA (HEat TRAnsfer)test section has been designed and built at the Institute for Neutron Physics and Reactor Technology in Karlsruhe Institute of Technology. The HETRA test section involves in full scale one U-pass of the cooling channel in the first wall of HCPB TBM Version 1.1 (see Meyder et al., 2005). The HCPB TBM relevant experimental conditions have been provided: test channel made of Eurofer steel, helium coolant at pressure of 8 MPa and inlet temperature of 300 C and heat flux of 270 kW/m(2) at the channel surface representing plasma facing side of the first wall. Test channels with hydraulically smooth and with hydraulically rough walls have been built. At each test channel the temperature of Eurofer walls has been measured at 60 positions, For numerical investigations the 3D CFD modelling with the code STAR CD has been applied. This paper is the first report on this study and presents the development of the test section and of the 3D CFD model. The analyses of the obtained experimental and computational results are presented in the second report (see Ilic et al., 2014).",
publisher = "Elsevier Science Sa, Lausanne",
journal = "Fusion Engineering and Design",
title = "Experimental and numerical investigations of heat transfer in the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module - Part 1: Presentation of test section and 3D CFD model",
pages = "36-29",
volume = "90",
doi = "10.1016/j.fusengdes.2014.11.005"
}

Ilić, M., Messemer, G., Zinn, K., Meyder, R., Kecskes, S.,& Kiss, B.. (2015). Experimental and numerical investigations of heat transfer in the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module - Part 1: Presentation of test section and 3D CFD model. in Fusion Engineering and Design
Elsevier Science Sa, Lausanne., 90, 29-36.
https://doi.org/10.1016/j.fusengdes.2014.11.005

Ilić M, Messemer G, Zinn K, Meyder R, Kecskes S, Kiss B. Experimental and numerical investigations of heat transfer in the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module - Part 1: Presentation of test section and 3D CFD model. in Fusion Engineering and Design. 2015;90:29-36.
doi:10.1016/j.fusengdes.2014.11.005 .

Ilić, Milica, Messemer, G., Zinn, Kevin, Meyder, R., Kecskes, S., Kiss, Bela, "Experimental and numerical investigations of heat transfer in the first wall of Helium-Cooled-Pebble-Bed Test Blanket Module - Part 1: Presentation of test section and 3D CFD model" in Fusion Engineering and Design, 90 (2015):29-36,
https://doi.org/10.1016/j.fusengdes.2014.11.005 . .