Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom
Influential parameters of nitrogen oxides emissions for microturbine swirl burner with pilot burner
Abstract
U radu su prikazani rezultati eksperimentalnog istraživanja emisije oksida azota (NOx) namenski razvijanog gasnog gorionika sa dva vrtložnika. Ispitivani su uticaj vihornih brojeva, nominalne toplotne snage i keoficijenta viška vazduha. Utvrđeno je da spoljašnji vrtložnik utiče na emisiju NOx samo u uslovima koeficijenta viška vazduha ispod 1,4. Povećanje vihornog broja smanjuje emisuju NOx. Utvrđeno je da unutrašnji vrtložnik i toplotna snaga imaju zanemarljiv uticaj na emisiju NOx. Gorionik je pokazao širok dinamički opseg rada i niske emisije oksida azota i ugljen-monoksida, koje zadovoljavaju najstrožije evropske kriterijume.
Swirl burners are the most common type of device in wide range of applications, including gas turbine combustors. Due to their characteristics, swirl flows are extensively used in combustion systems because they enable high energy conversion in small volume with good stabilization behavior over the wide operating range. The flow and mixing process generated by the swirl afford excellent flame stability and reduced NOx emissions. Experimental investigation of NOx emission of a purposely designed micro-turbine gas burner with pilot burner is presented. Both burners are equipped with swirlers. Mixtures of air and fuel are introduced separately: through the inner swirler - primary mixture for pilot burner, and through the outer swirler - secondary mixture for main burner. The effects of swirl number variations for the both burners were investigated, including parametric variations of the thermal power and air coefficient. It was found that the outer swirler affects the emission of NOx only... for the air coefficient less than 1.4. The increase of swirl number resulted in decrease of NOx emission. The inner swirler and thermal power were found to have negligible effect on emission.
Keywords:
vihor / oksidi azota / gorionik / swirl / nitrogen oxides / burnerSource:
Hemijska Industrija, 2010, 64, 4, 357-363Publisher:
- Savez hemijskih inženjera, Beograd
DOI: 10.2298/HEMIND100319019A
ISSN: 0367-598X
WoS: 000282550400012
Scopus: 2-s2.0-77956489440
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Mašinski fakultetTY - JOUR AU - Adžić, Miroljub AU - Živković, Marija A. AU - Fotev, Vasko AU - Milivojević, Aleksandar AU - Adžić, Vuk M. PY - 2010 UR - https://machinery.mas.bg.ac.rs/handle/123456789/1056 AB - U radu su prikazani rezultati eksperimentalnog istraživanja emisije oksida azota (NOx) namenski razvijanog gasnog gorionika sa dva vrtložnika. Ispitivani su uticaj vihornih brojeva, nominalne toplotne snage i keoficijenta viška vazduha. Utvrđeno je da spoljašnji vrtložnik utiče na emisiju NOx samo u uslovima koeficijenta viška vazduha ispod 1,4. Povećanje vihornog broja smanjuje emisuju NOx. Utvrđeno je da unutrašnji vrtložnik i toplotna snaga imaju zanemarljiv uticaj na emisiju NOx. Gorionik je pokazao širok dinamički opseg rada i niske emisije oksida azota i ugljen-monoksida, koje zadovoljavaju najstrožije evropske kriterijume. AB - Swirl burners are the most common type of device in wide range of applications, including gas turbine combustors. Due to their characteristics, swirl flows are extensively used in combustion systems because they enable high energy conversion in small volume with good stabilization behavior over the wide operating range. The flow and mixing process generated by the swirl afford excellent flame stability and reduced NOx emissions. Experimental investigation of NOx emission of a purposely designed micro-turbine gas burner with pilot burner is presented. Both burners are equipped with swirlers. Mixtures of air and fuel are introduced separately: through the inner swirler - primary mixture for pilot burner, and through the outer swirler - secondary mixture for main burner. The effects of swirl number variations for the both burners were investigated, including parametric variations of the thermal power and air coefficient. It was found that the outer swirler affects the emission of NOx only for the air coefficient less than 1.4. The increase of swirl number resulted in decrease of NOx emission. The inner swirler and thermal power were found to have negligible effect on emission. PB - Savez hemijskih inženjera, Beograd T2 - Hemijska Industrija T1 - Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom T1 - Influential parameters of nitrogen oxides emissions for microturbine swirl burner with pilot burner EP - 363 IS - 4 SP - 357 VL - 64 DO - 10.2298/HEMIND100319019A ER -
@article{ author = "Adžić, Miroljub and Živković, Marija A. and Fotev, Vasko and Milivojević, Aleksandar and Adžić, Vuk M.", year = "2010", abstract = "U radu su prikazani rezultati eksperimentalnog istraživanja emisije oksida azota (NOx) namenski razvijanog gasnog gorionika sa dva vrtložnika. Ispitivani su uticaj vihornih brojeva, nominalne toplotne snage i keoficijenta viška vazduha. Utvrđeno je da spoljašnji vrtložnik utiče na emisiju NOx samo u uslovima koeficijenta viška vazduha ispod 1,4. Povećanje vihornog broja smanjuje emisuju NOx. Utvrđeno je da unutrašnji vrtložnik i toplotna snaga imaju zanemarljiv uticaj na emisiju NOx. Gorionik je pokazao širok dinamički opseg rada i niske emisije oksida azota i ugljen-monoksida, koje zadovoljavaju najstrožije evropske kriterijume., Swirl burners are the most common type of device in wide range of applications, including gas turbine combustors. Due to their characteristics, swirl flows are extensively used in combustion systems because they enable high energy conversion in small volume with good stabilization behavior over the wide operating range. The flow and mixing process generated by the swirl afford excellent flame stability and reduced NOx emissions. Experimental investigation of NOx emission of a purposely designed micro-turbine gas burner with pilot burner is presented. Both burners are equipped with swirlers. Mixtures of air and fuel are introduced separately: through the inner swirler - primary mixture for pilot burner, and through the outer swirler - secondary mixture for main burner. The effects of swirl number variations for the both burners were investigated, including parametric variations of the thermal power and air coefficient. It was found that the outer swirler affects the emission of NOx only for the air coefficient less than 1.4. The increase of swirl number resulted in decrease of NOx emission. The inner swirler and thermal power were found to have negligible effect on emission.", publisher = "Savez hemijskih inženjera, Beograd", journal = "Hemijska Industrija", title = "Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom, Influential parameters of nitrogen oxides emissions for microturbine swirl burner with pilot burner", pages = "363-357", number = "4", volume = "64", doi = "10.2298/HEMIND100319019A" }
Adžić, M., Živković, M. A., Fotev, V., Milivojević, A.,& Adžić, V. M.. (2010). Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom. in Hemijska Industrija Savez hemijskih inženjera, Beograd., 64(4), 357-363. https://doi.org/10.2298/HEMIND100319019A
Adžić M, Živković MA, Fotev V, Milivojević A, Adžić VM. Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom. in Hemijska Industrija. 2010;64(4):357-363. doi:10.2298/HEMIND100319019A .
Adžić, Miroljub, Živković, Marija A., Fotev, Vasko, Milivojević, Aleksandar, Adžić, Vuk M., "Uticajni parametri emisije azotnih oksida vihornog gorionika mikroturbine sa pilot gorionikom" in Hemijska Industrija, 64, no. 4 (2010):357-363, https://doi.org/10.2298/HEMIND100319019A . .