 |
|
Connected As: <Anonymous> Contact: srcosmos@aegean.gr |
|
|
|
Connected As: <Anonymous> Contact: srcosmos@aegean.gr |
Article summary:
| Keywords | Phenanthrene, PAH, VOC, Emissions, Adsorption, Hot Gas Cleaning |
| Abstract | This is the first time that the abatement of Phenantrene (Phe) from combustion hot gas has been studied. For this goal, the adsorption capacity of ten active carbons with different origins and a wide range of textural characteristics have been assessed for Phe removal from hot gas emissions. The study was carried out at laboratory scale and the main aim has been to test the Phe adsorption capacities by the porous materials at the ranges that Phe could be emitted from new energy systems generation. The protocol followed in this work was firstly, to check the influence of the bed mass on the Phe adsorption capacity and, secondly and once it was shown that the bed mass is not relevant for the studied Phe concentration range, the adsorption capacity of the ten adsorbents was analyzed. The CA-3 adsorbent was selected to check the inlet concentration at three different temperatures, 125ºC, 150ºC and 175ºC, within the range of atmospheric emissions from the power stations. The results obtained show that there is a good correlation between the Phe adsorption capacity and the total micropore volume of the adsorbents calculated with the Dubinin-Radushkevich equation for the N2 isotherm data. No relationship was found between Phe adsorption capacity and mesopore volume calculated by BJH method. Besides, no relationship was found between chemical surface (CO and CO2 groups desorbed on Thermal Program Desorption (TPD)) and adsorption capacity. |
| Full text | Full Text in PDF (328 KB) |
| Source link | |
| Included Refrences | 33 References (List...) |
| Cited by other Articles | 0 Citations (List...) |
| Name | Affiliation | Home page | Total pubs | |
| Callen MS | Instituto de Carboquimica (CSIC), C/Miguel Luesma Castan, 4, 50018 Zaragoza (Spain) | marisol@icb.csic.es | 10 | |
| Galban J | Department of Analytical Chemistry, Zaragoza University | 1 | ||
| Garcia T | Instituto de Carboquímica, CSIC | 5 | ||
| Mastral AM | Instituto de Carboquimica (CSIC), C/Miguel Luesma Castan, 4, 50018 Zaragoza (Spain) | marisol@icb.csic.es | 10 | |
| Navarro MV | Instituto de Carboquimica (CSIC), C/Miguel Luesma Castan, 4, 50018 Zaragoza (Spain) | 4 |
References included in article:
| Order of appearence | Full citation | SRCosmos Link |
| 1 | Williams PT, JH. Ins. Energy, (1990), 63, 22. | |
| 2 | Lee ML, Novotny M, Bartle KD, Analytical Chemistry of Polycyclic Aromatic Hydrocarbons; Academic Press: New York, (1981) | |
| 3 | Marr LC, Kirchstetter TW, Harley RA, Miguel AH, Hering SV, Hammond SK, (1999), 33(18), 3091. | |
| 4 | Kirton PJ, Crisp PT, (1990), 69(5), 633. | |
| 5 | Rogge WF, Hildemann LM, Mazukek MA, Cass GR, Simoneit BRT, (1993) Environ. Sci. Technol., 27(13), 2736. | |
| 6 | Oamh NT, Reutergardh LB, Dung NT, (1999)Environ. Sci. Technol, , 33(16), .....2703. | |
| 7 | Lee CW, Lemieux PM, Gullett BK, Ryan JV, Kilgrue JD, Studies in .....Environ. Sci., (1998), 72, 361. | |
| 8 | Zimmermann R, Heger HJ, Kettrup A, Fresenius Journal of Analytical ....Chemistry, (1999), 363(8), 720. | |
| 9 | Mastral AM, ; Callén, M.S.; Murillo, R.; García, T. Fuel (1998), 77(13), 1513. | |
| 10 | Mastral AM, ; Callén, M.S.; Murillo, R.; García, T. Fuel (1999), 78(13), 1553. | |
| 11 | Mastral AM, ; Callén, M.S.; Murillo, R. Fuel (1996), 75(13), 1533. | |
| 12 | Johnson PJ, Setsuda DJ, Williams RS, Carbon Materials for Advanced ......Technologies, Burchell, T. D.; Pergamon; Oak Ridge, USA, (1999). | |
| 13 | US-EPA list of the priority pollutants, IEA Coal Research, (1984), London. | |
| 14 | Mastral AM, ; Callén, M.S.; Murillo, R.; García, T. Environ. Sci. Technol. (1999), ......33, 3177. | |
| 15 | Peltonen K, Kuljukka TJ, Chromatographia (1995), 710, 93. | |
| 16 | Baek SO, Field RA, Goldstone ME, Kirk PW, Lester JN, Perry R, Water, .Air and Soil Pollution (1991), 60, 279. | |
| 17 | Kirton PJ, Ellis J, Crisp PT, Fuel (1991), 70(1), 4. | |
| 18 | Durlak SK, Biswas P, Shi J, Bernhard MJ, Environ. Sci. Technol. (1998), 32(15), 2301. | |
| 19 | Mastral AM, ; Callén, M.S.; Murillo, R.; García, T. Environ. Sci. Technol.(1999), 33(23), 4155. | |
| 20 | Gundel LA, Lee VC, Mahanama KRR, Stevens RK, Daisey JM, (1995).Atmospheric Environ., 29(14), 1719. | |
| 21 | Baek SO, Goldstone ME, Kirk PWW, Lester JN, Perry R, Environm. Technol. (1991), 12(2), 107. | |
| 22 | Magdalena RL, Mckone TE, Kado NY, Atmospheric Environ. (1998), 32(14-.....15), 2497. | |
| 23 | Zhuang M, Yang MJ, Pawliszyn J, Journal of Chromatographic Science (1995), 33(9), 493. | |
| 24 | Bjorseth O, Krohn C, Togersen S, Fjeldstad PE, Electrochim. Acta (1980), 25, ......117. | |
| 25 | Lindgren JL, Krauss HJ, Fox MAJ, Air Pollution Control Ass. (1980), 30, ......166. | |
| 26 | Ryu Z, Yingtang Z, Maozhang W, Bijiang Z, Carbon (1999), 37, 1257. | |
| 27 | Greenberg A, Yokoyama R, Air/Particulate Instrumentation an Analysis; .Cheremisinoff, P; Ann Arbor Science; Ann Arbor, MI, (1981), p 275. | |
| 28 | Grodten T, Schmidt D, Dannecker W, Gefahrstoffe Reinhaltung de Luft, (1998), .....58(5), 205. | |
| 29 | Andersson K, Levin JO, Nilsson CA, Chemosphere, (1983), 59, 1701. | |
| 30 | Derbyshire F, Jagtoyen M, Thwaites M, Porosity in carbons; Patrick, J. W; Leicestershire, UK, (1995), 228-252. | |
| 31 | Cousins IT, Beck AJ, Jones KC, The Sci. of the Total Environ., (1999), 228, 5. | |
| 32 | Rubio B, Izquierdo MT, Mastral AM, Carbon, (1998), 36, 263. | |
| 33 | Tsuji K, Shiraishi J, Fuel (1987), 76(6), 549. |
