Živković, Emila

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Viscosity of binary mixture DMA + 2-butanol with potential use as solvent for regenerative flue gas desulfurization processes

Majstorović, Divna; Živković, Nikola; Kijevčanin, Mirjana; Živković, Emila

(Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS), 2019) 

TY  - CONF
AU  - Majstorović, Divna
AU  - Živković, Nikola
AU  - Kijevčanin, Mirjana
AU  - Živković, Emila
PY  - 2019
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/12116
AB  - Sulfur dioxide (SO2) is an environmental pollutant with multiple harmful effects on biological world. One of the main emission sources are industrial activities in thermal power plants, foundries and steel mills which involve combustion of fossil fuels containing sulfur, such as coal and oil. Initial step towards removal of SO2from flue gases was the so-called limestone process, a wet non-regenerative process that even today is the mostused flue gas desulfurization method. However, wet regenerative processes with gas absorption in liquid organic solvent and thermal regeneration recently have found practical application. Processes based on n,n-dimethylaniline (DMA) have alre-ady been patented and industrially applied. This solvent has high selectivity towards SO2in compa-rison  to  the  other  components  of  flue  gas  like  CO2,  and  excellent  binding  capability  by  the 214• 32ndINTERNATIONAL CONGRESS ON PROCESS INDUSTRYmechanisms of chemical absorption, but main disadvantage is its high toxicity. On the other hand, in more ambient friendly 2-butanol binding of sulfur-dioxide occurs by means of physical absorption. Investigations have shown that mixtures of physical and chemical solvents usually show better cha-racteristics regarding binding capacityand selectivity than traditionally used aqueous solutions of amines, due to the synergetic effect.One  of  the  most  important  thermophysical  properties  of  solvents,  necessary  for  process  and equipment  design  is  dynamic  viscosity.  In  this  investigation  viscosity  of  binary  mixture  DMA  +  2-butanol  is  experimentally  determined  in  temperature  and  concentration  range  and  correlated afterwards  using  different  literature  models.  These  correlations  present  useful  method  to  acquire reliable data necessary for fluid flow analysis and mass and heat transfer calculations, since experi-mental values for desired process conditions are often not available. In this study, two or three-pa-rameter  Eyring-UNIQUAC,  Eyring-NRTL  and  McAllister  models  were  used,  while  model  that  co-uples Eyring equation, Peng-Robinson equation of state and van der Waals mixing rule, was tested for simultaneous calculation of density and viscosity. The obtained results are presented and discu-ssed regarding potential application, limitations and complexity of used approach and models.
AB  - Sumpor dioksid (SO2) je zagađivač životne sredine sa višestrukim štetnim efektima na biološki svet. Jedan od glavnih izvora emisije su industrijske aktivnosti u termoelektranama, livnicama i železarama, koje uključuju sagorevanje fosilnih goriva koja sadrže sumpor, kao što su ugalj i nafta.   Početni korak u uklanjanju SO2 iz dimnih gasova bio je takozvani krečnjački postupak, mokri neregenerativni proces koji je i danas najčešće korišćen metod odsumporavanja dimnih gasova. Međutim, mokri regenerativni procesi sa apsorpcijom gasa u tečnom organskom rastvaraču i termalnom regeneracijom nedavno su našli praktičnu primenu. Procesi zasnovani na n,n-dimetilanilinu (DMA) su već patentirani i industrijski primenjeni. Ovaj rastvarač ima visoku selektivnost prema SO2 u poređenju sa drugim komponentama dimnog gasa kao što je CO2, i odličnu sposobnost vezivanja mehanizmima hemijske apsorpcije, ali glavni nedostatak je visoka toksičnost. S druge strane, u, sa stanovišta životne sredine prihvatljivijem, 2-butanolu do vezivanja sumpor-dioksida dolazi fizičkom apsorpcijom. Istraživanja su pokazala da smeše fizičkih i hemijskih rastvarača obično pokazuju bolje karakteristike u pogledu mogućnosti vezivanja i selektivnosti od tradicionalno korišćenih vodenih rastvora amina, zbog sinergetskog efekta.   Jedno od najvažnijih termofizičkih svojstava rastvarača, neophodno za simulaciju procesa i proračun opreme, je dinamička viskoznost. U ovom istraživanju, viskoznost binarne smeše DMA + 2-butanol eksperimentalno je određena u temperaturnom i koncentracionom opsegu i nakon toga korelisana korišćenjem različitih literaturnih modela. Ove korelacije predstavljaju korisnu metodu za dobijanje pouzdanih podataka potrebnih za analizu protoka fluida i proračune prenosa mase i toplote, jer eksperimentalne vrednosti za željene uslove procesa često nisu dostupne. U ovom istraživanju korišćeni su dvo- ili troparametarski modeli Eyring-UNIQUAC, Eyring-NRTL i McAllister, dok je model koji povezuje Eyring jednačinu, Peng-Robinson jednačinu stanja i van der Waals pravilo mešanja testiran za istovremeno izračunavanje gustine i viskoznosti. Dobijeni rezultati su prikazani i diskutovani u pogledu potencijalne primene, ograničenja i složenosti korišćenog pristupa i modela.
PB  - Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS)
PB  - Beograd : Društvo za procesnu tehniku
C3  - Processing '19 : zbornik radova za 32. Međunarodni kongres o procesnoj industriji
T1  - Viscosity of binary mixture DMA + 2-butanol with potential use as solvent  for regenerative flue gas desulfurization processes
T1  - Viskoznost binarne smeše DMA + 2-butanol za potencijalnu upotrebu kao rastvarača za regenerativne procese odsumporavanja dimnih gasova
SP  - 213
EP  - 218
DO  - 10.24094/ptk.019.32.1.213
ER  - 
@conference{
author = "Majstorović, Divna and Živković, Nikola and Kijevčanin, Mirjana and Živković, Emila",
year = "2019",
abstract = "Sulfur dioxide (SO2) is an environmental pollutant with multiple harmful effects on biological world. One of the main emission sources are industrial activities in thermal power plants, foundries and steel mills which involve combustion of fossil fuels containing sulfur, such as coal and oil. Initial step towards removal of SO2from flue gases was the so-called limestone process, a wet non-regenerative process that even today is the mostused flue gas desulfurization method. However, wet regenerative processes with gas absorption in liquid organic solvent and thermal regeneration recently have found practical application. Processes based on n,n-dimethylaniline (DMA) have alre-ady been patented and industrially applied. This solvent has high selectivity towards SO2in compa-rison  to  the  other  components  of  flue  gas  like  CO2,  and  excellent  binding  capability  by  the 214• 32ndINTERNATIONAL CONGRESS ON PROCESS INDUSTRYmechanisms of chemical absorption, but main disadvantage is its high toxicity. On the other hand, in more ambient friendly 2-butanol binding of sulfur-dioxide occurs by means of physical absorption. Investigations have shown that mixtures of physical and chemical solvents usually show better cha-racteristics regarding binding capacityand selectivity than traditionally used aqueous solutions of amines, due to the synergetic effect.One  of  the  most  important  thermophysical  properties  of  solvents,  necessary  for  process  and equipment  design  is  dynamic  viscosity.  In  this  investigation  viscosity  of  binary  mixture  DMA  +  2-butanol  is  experimentally  determined  in  temperature  and  concentration  range  and  correlated afterwards  using  different  literature  models.  These  correlations  present  useful  method  to  acquire reliable data necessary for fluid flow analysis and mass and heat transfer calculations, since experi-mental values for desired process conditions are often not available. In this study, two or three-pa-rameter  Eyring-UNIQUAC,  Eyring-NRTL  and  McAllister  models  were  used,  while  model  that  co-uples Eyring equation, Peng-Robinson equation of state and van der Waals mixing rule, was tested for simultaneous calculation of density and viscosity. The obtained results are presented and discu-ssed regarding potential application, limitations and complexity of used approach and models., Sumpor dioksid (SO2) je zagađivač životne sredine sa višestrukim štetnim efektima na biološki svet. Jedan od glavnih izvora emisije su industrijske aktivnosti u termoelektranama, livnicama i železarama, koje uključuju sagorevanje fosilnih goriva koja sadrže sumpor, kao što su ugalj i nafta.   Početni korak u uklanjanju SO2 iz dimnih gasova bio je takozvani krečnjački postupak, mokri neregenerativni proces koji je i danas najčešće korišćen metod odsumporavanja dimnih gasova. Međutim, mokri regenerativni procesi sa apsorpcijom gasa u tečnom organskom rastvaraču i termalnom regeneracijom nedavno su našli praktičnu primenu. Procesi zasnovani na n,n-dimetilanilinu (DMA) su već patentirani i industrijski primenjeni. Ovaj rastvarač ima visoku selektivnost prema SO2 u poređenju sa drugim komponentama dimnog gasa kao što je CO2, i odličnu sposobnost vezivanja mehanizmima hemijske apsorpcije, ali glavni nedostatak je visoka toksičnost. S druge strane, u, sa stanovišta životne sredine prihvatljivijem, 2-butanolu do vezivanja sumpor-dioksida dolazi fizičkom apsorpcijom. Istraživanja su pokazala da smeše fizičkih i hemijskih rastvarača obično pokazuju bolje karakteristike u pogledu mogućnosti vezivanja i selektivnosti od tradicionalno korišćenih vodenih rastvora amina, zbog sinergetskog efekta.   Jedno od najvažnijih termofizičkih svojstava rastvarača, neophodno za simulaciju procesa i proračun opreme, je dinamička viskoznost. U ovom istraživanju, viskoznost binarne smeše DMA + 2-butanol eksperimentalno je određena u temperaturnom i koncentracionom opsegu i nakon toga korelisana korišćenjem različitih literaturnih modela. Ove korelacije predstavljaju korisnu metodu za dobijanje pouzdanih podataka potrebnih za analizu protoka fluida i proračune prenosa mase i toplote, jer eksperimentalne vrednosti za željene uslove procesa često nisu dostupne. U ovom istraživanju korišćeni su dvo- ili troparametarski modeli Eyring-UNIQUAC, Eyring-NRTL i McAllister, dok je model koji povezuje Eyring jednačinu, Peng-Robinson jednačinu stanja i van der Waals pravilo mešanja testiran za istovremeno izračunavanje gustine i viskoznosti. Dobijeni rezultati su prikazani i diskutovani u pogledu potencijalne primene, ograničenja i složenosti korišćenog pristupa i modela.",
publisher = "Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS), Beograd : Društvo za procesnu tehniku",
journal = "Processing '19 : zbornik radova za 32. Međunarodni kongres o procesnoj industriji",
title = "Viscosity of binary mixture DMA + 2-butanol with potential use as solvent  for regenerative flue gas desulfurization processes, Viskoznost binarne smeše DMA + 2-butanol za potencijalnu upotrebu kao rastvarača za regenerativne procese odsumporavanja dimnih gasova",
pages = "213-218",
doi = "10.24094/ptk.019.32.1.213"
}
Majstorović, D., Živković, N., Kijevčanin, M.,& Živković, E.. (2019). Viscosity of binary mixture DMA + 2-butanol with potential use as solvent  for regenerative flue gas desulfurization processes. in Processing '19 : zbornik radova za 32. Međunarodni kongres o procesnoj industriji
Beograd : Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije (SMEITS)., 213-218.
https://doi.org/10.24094/ptk.019.32.1.213
Majstorović D, Živković N, Kijevčanin M, Živković E. Viscosity of binary mixture DMA + 2-butanol with potential use as solvent  for regenerative flue gas desulfurization processes. in Processing '19 : zbornik radova za 32. Međunarodni kongres o procesnoj industriji. 2019;:213-218.
doi:10.24094/ptk.019.32.1.213 .
Majstorović, Divna, Živković, Nikola, Kijevčanin, Mirjana, Živković, Emila, "Viscosity of binary mixture DMA + 2-butanol with potential use as solvent  for regenerative flue gas desulfurization processes" in Processing '19 : zbornik radova za 32. Međunarodni kongres o procesnoj industriji (2019):213-218,
https://doi.org/10.24094/ptk.019.32.1.213 . .