Prof. Dr. Gülşen Doğu

Mühendislik Fakültesi > Kimya Mühendisliği

1.      Doğu, G., J.M. Smith, “A Dynamic Method for Catalyst Diffusivities”, AIChE J., 21, 58 (1975). (*)

2.      Doğu, G., J.M. Smith, “Rate Parameters from Dynamic Experiments with Single Catalyst Pellets”, Chemical Engineering Science, 31, 123 (1976). (*)

3.      Doğu, G., T. Doğu, “A General Criterion to Test the Importance of Diffusion Limitations in Bidisperse Porous Catalysts”, AIChE J., 26, 287 (1980). (*)

4.      Ercan, C., G. Doğu, “Analysis of Adsorption of Gases on Bidisperse Porous Catalysts by a Pulse Response Technique”, Journal of Pure and Appl. Sciences, 13, No. 3, 369 (1981).

5.      Orbey, N., Doğu, G., T. Doğu, “Breakthrough Analysis of Noncatalytic Solid-Gas Reactions”, Can. J. Chem. Eng., 60, 314 (1982). (*)

6.      Doğu, G., T. Doğu, “A Note on Diffusion Limitations for Reaction Systems in Porous Catalysts”, AIChE J., 28, 1036 (1982). (*)

7.      Ülkütan, S., T. Doğu, G. Doğu, “Structural Variations as a Tool to Analyse the Mechanism of Non-Catalytic Solid-Gas Reactions”, ACS Symp. Ser., 196, 515 (1982).

8.      Doğu, G., C. Ercan, “Dynamic Analysis of Adsorption on Bidisperse Porous Catalysts”, Can. J. Chem. Eng., 61, 660 (1983). (*)

9.      Doğu, T., G. Doğu, “Testing the Relative Importance of Temperature and Concentration Gradients in Catalyst Pellets”, AIChE J., 30, 1002 (1984). (*)

10.  Doğu, G., Z. Z. Sözen, “Kinetics of Catalytic Oxidation of Ethylene” Chem. Eng. J., 31, 145 (1985). (*)

11.  Doğu, T., A. Keskin, G. Doğu, J.M. Smith, “Single Pellet Moment Method for Analysis of Gas-Solid Reactions”, AIChE J., 32, 743-750 (1986). (*)

12.  Wang Hu, J. M. Smith, T. Doğu, G. Doğu, “Kinetics of Sodium Bicarbonate Decomposition”, AIChE J., 32, 1483-1490 (1986). (*)

13.  Doğu, G., A. Keskin, T. Doğu, “Macro and Micropore Diffusion Coefficients from Dynamic Single Pellet Experiments”, AIChE J., 33, 322-324 (1987). (*)

14.  Balcı., S., Doğu, G., T. Doğu, “Structural Variations and a Deactivation Model for Gasification of Coal”, I and EC Research, 26, No. 7, 1454-1458 (1987). (*)

15.  Doğu, G., Keskin, A., T. Doğu, “Dynamic Analysis of Changes in Diffusion and Sorption Parameters in the Reaction of SO2 with Activated Soda”, Can. J. Chem. Eng., 66, 605-610 (1988). (*)

16.  Doğu,G., Mürtezaoğlu, K., T. Doğu, “A Dynamic Method For The Effective Thermal Conductivity of Porous Solids”, AIChE J., 35, 683-686 (1989). (*)

17.  Doğu,G., Pekediz, A., T. Doğu, Dynamic Analysis of Viscous Flow and Diffusion in Porous Solids, AIChE J., 35, 1370-1395 (1989). (*)

18.  Doğu, T., G. Doğu, “A Grain Model for Catalyst Tortuosity”, Chem. Eng. Commun.,  103, 1-9 (1991). (*)

19.  Doğu, G., Cabbar, C., T. Doğu, “Thermal and Mass Diffusivity from Dynamic Single Pellet Experiments”, Chem. Eng. Comm., 102, 149-160 (1991). (*)

20.  Ölmez, G., Doğu, G., T. Doğu, “Removal of Sulfurdioxide with Lime Slurry in a Spray Drier”, Poster Presented in NATO ASI on Chemical Reactor Technology For Environmentally Safe Reactors and Products, Canada, August, 1991. Kluwer Acad. Pub.,  499-506 (1992).

21.  Doğu, G., T. Doğu, “Kinetics of Capture of Sulfur Dioxide and Applications to Flue Gas Desulfurization”, Lecture presented in NATO ASI on Chemical Reactor Technology For Environmentally Safe Reactors and Products, Canada, August 1991, Kluwer Acad. Pub., 467-498, (1992).

22.  Doğu, G., Uçar, Ç, Doğu, T., Gürüz, G., Ercan, Y., A. Durmaz, “Scrubbing of SO2 with Trona Solution in a Spray Drier”, Can. J., Chem. Eng., 808-813 (1992). (*)

23.  Doğu, T., Cabbar, C., G. Doğu, “Single Pellet Technique for Irreversible and Reversible Adsorption in Soil”, AIChE J., 39, 1895-99 (1993). (*)

24.  Cabbar, C., Doğu, G., Doğu, T., McCoy, B. J., J. M., Smith, “Analysis of Diffusion and Sorption of Chloronated Hydrocarbons in Soil by Single Pellet Moment Technique”, Environ. Science Technology, 28, No. 7, 1312-1319 (1994). (*)

25.  Özkan, G., Doğu, G., A., Durmaz, “Combustion of a High Ash and Sulfur Containing Lignite and its Pollution Characteristics in a Circulating Fluidized Bed Combustor”, “Combustion Technologies for a Clean Environment”, Editörler: Carvalho,M.G.,Fiveland,W.A.,Lockwood,F.C., Papadopoulos,C., Gordon and Breach Pub. s.567-575 (1995).

26.  Mürtezaoğlu, K., Oray, E., Doğu, T., Doğu, G., Saraçoğlu, N., C., Cabbar, “Effective Thermal Conductivity of Monolithic and Porous Catalyst Supports, by the Moment Technique”, Journal of Chemical Engineering Data, 40, 720-725 (1995).(*)

27.  Doğu, T., Yaşyerli, N., Doğu, G., McCoy, B.J., J.M. Smith, “One-Sided Single-Pellet Technique for Adsorption and Intraparticle Diffusion”, AIChE J., 42 (2), 516-523 (1996). (*)

28.  Yaşyerli, N., Doğu, G., Doğu, T., Ar, İ, “Deactivation Model for Textural Effects on Kinetics of Gas-Solid Non-Catalytic Reactions, Char Gasification with CO2”, Chem. Eng. Sci., 51, 2523-2528 (1996). (*)

29.  Kopaç, T., Doğu, G., Doğu, T., “Single-Pellet Reactor for the Dynamic Analysis of Gas-Solid Reactions, Reaction of SO2 with Activated Soda”, Chem. Eng. Sci., 51, 2201-2210 (1996). (*)

30.  Cabbar, C., Doğu, G., Doğu, T., B.J.McCoy, “Single-Pellet Dynamics for the Soil Organic Matter Effect on Dichloromethane Sorption”, AIChEJ., 42, 2090-2093 (1996). (*)

31.  Doğan, M, Güldür, Ç., Doğu, G., Doğu, T., “Soda Ash Production from Trona in a Spray Drier”, J.Chem.Tech.Biotech ., 68,157-162 (1997). (*)

32.  Özkan,G., Doğu,G., “A Dynamic Study on Axial Dispersion and Adsorption in Catalytic Monoliths”, Ind.Eng.Chem. Res., 36, 4734-4739 (1997). (*)

33.  Oktar,N., Mürtezaoğlu,K., Doğu,G., Gonderten,I., Doğu,T., “Etherification Rates of 2-Methyl -2-Butene and 2-Methyl-1-Butene with Ethanol for Environmentally Clean Gasoline Production, J.Chem.Tech. Biotech.,74,155-161 (1999). (*)

34.  Oktar,N., Mürtezaoğlu,K., Doğu,T., Doğu,G., “Dynamic Analysis of Adsorption Equilibrium and Rate Parameters of Reactants and Products in MTBE, ETBE and TAME, Production” Canad.J.Chem.Eng., 77, 406-411(1999). (*)

35.  Yaşyerli,N., Doğu,G., Doğu,T., McCoy, B.J., “Pulse-Response Study for the Humidity Effect on Sorption of Ethyl Bromide on Clays’’, AIChE Journal, 45, 291-298(1999). (*)

36.  Ar,İ., Doğu,G.,”Calcination Kinetics of High Purity Limestones”, Chem. Eng. Journal,  83/2,131-137 (2001). (*)

37.  Güldur,Ç.,Doğu,G.,Doğu,T.,”Kinetics of Trona SulfurDioxide Reaction”, Chem. Eng. Proc., 40, 13-18 (2001). (*)

38.  Doğu,G., Özkan,G., Doğu,T., ”A Moment Technique for Adsorption Rate on Metal Surfaces of Supported Catalysts –CO Adsorption on Pt-Al2O3 Washcoated Monolith”, Chem. Eng. Journal, 84, 429-35 (2001). (*)

39.  Yasyerli,S., Dogu,G., Ar,I., Dogu, T., “Activities of Copper Oxide and Cu-V,  Cu-Mo Mixed Oxides For H2S Removal in the Presence and Absence of Hydrogen and Predictions of Deactivation  Model”, I&EC Research, 40, 5206-5214 (2001). (*)

40.  Doğu,T., Boz,N., Aydın,E., Oktar,N., Mürtezaoğlu, K., Doğu, G., “Drift Studies For The Reaction and Adsorption Of Alcohols and Iso-butylene on Acidic Resin Catalysts and The Mechanism of ETBE and MTBE Synthesis”, I&EC Research, 40, 5044-5051 (2001). (*)

41.  Yasyerli,S., Ar,I., Dogu,G., Dogu,T., “Removal of Hydrogen Sulfide By Clinoptilolite In a Fixed Bed Adsorber”, Chem. Eng. and Processing,  41, 785-792 (2002). (*)

42.  Doğan, M., Doğu, G., “Hydrogen Diffusivity Enhancement in Alumina Pellets Due To Impregnated Palladium”, Chem. Eng. Communications, 190, 662-676(2003). (*)

43.  Yaşyerli, S., Doğu, G., Ar, I., Doğu, T., “Breakthrough Analysis of H2S Removal on Cu-V-O, Cu-V and Cu-Mo Mixed Oxides”, Chem Eng. Communications, 190, 1055-1072 (2003).

44.  Dogu, T., Aydın, E., Boz, N., Mürtezaoğlu, K., Dogu, G., “Diffusion Resistences and Contribution of Surface Diffusion in TAME and TAEE Production Using Amberlyst 15”, Int. J. Chem. Reactor Eng., Vol.1, Article A6, (2003).

45.  Dogan, M., Dogu, G., “Dynamics of Flow and Diffusion of Adsorbing Gases in Al2O3 and Pd-Al2O3 Pellets”, AIChE J., 49, 3188-3198 (2003). (*)

46.  Boz, N., Dogu, T., Mürtezaoğlu, K., Dogu, G.,  “Effect of Hydrogen Ion Exchange Capacity on Activity of Resin Catalysts in Tertiary-Amyl-Ethyl-Ether (TAEE) Synthesis”, Applied Catalysis A: General, 268,175-182 (2004). (*)

47.  S.Yasyerli, G.Dogu, I.Ar, T.Dogu, "Dynamic Analysis of Removal and Selective Oxidation of H2S to Elemental Sulfur Over Cu-V and Cu-V-Mo Mixed Oxides  in a Fixed Bed Reactor", Chemical Engineering Science, 59, 4001-4009 (2004). (*)

48.  Boz, N., Doğu, T., Mürtezaoğlu, K., Dogu,G., “Mechanism of TAME amd TAEE Synthesis From Diffuse Reflectance FTIR Analysis, Catalysis Today, 100, 419-424 (2005). (*)

49.  Karayılan, D., Yasyerli, S., Doğu, G., Doğu, T., “ Mn-Cu and Mn-Cu-V Mixed-Oxide Regenerable Sorbents For Hot Gas Desulfurization”, Industrial & Engineering Chemistry Research, (Davetli Makale), Dudukovic Özel Sayısı, 44, 5221 (2005). (*)

50.  Altınışık.Ö., Doğan, M., Doğu, G., “Preparation and Characterization of Palladium Plated Porous Glass for Hydrogen Enrichment”, Catalysis Today, 105, 641 (2005). (*)

51.  Yener, J., Kopac, T., Dogu, G., Dogu, T., “Adsorption of Basic Yellow 28 from Aqueous Solutions with Clinoptilolite and Amberlite”, Journal of Colloid and Interface Science, 294, 255 (2006). (*)

52.  Yasyerli,S., Dogu, G., Dogu, T., “Selective Oxidation of H2S to Elemental Sulfur over Ce-V Mixed Oxide and CeO2 Catalysts Prepared by the Complexation Technique”, Catalysis Today, 117, 271-78 (2006). (*)

53.  Caglayan, P., Yasyerli, S., Ar, I., Dogu, G., Dogu, T., “Kinetics of H2S Sorption on Manganese Oxide and Mn-Fe-Cu Mixed Oxide Prepared by the Complexation Technique”, Int. J. Chem. Reactor Eng., Vol.4: A18 (2006).(*) http://www.bepress.com/ijcre/vol4/A18.

54.  Yener,J., Kopaç, T., Doğu, G., Doğu, T., “Batch Adsorber Rate Analysis of Methylene Blue on Amberlite and Clinoptilolite”, Separation Science and Technology, 41, 1857-1879 (2006). (*)

55.  Sener, C., Dogu, T., Dogu, G., “ Effects of Synthesis Conditions on the Structure of Pd Incorporated MCM-41 Type Mesoporous Nanocomposite Catalytic Materials with High Pd/Si Ratio”, Microporous and Mesoporous Materials, 94, 89-98 (2006). (*)

56.  Sener, C., Dogu, T., Dogu, G., “Direct Hydrothermal Synthesis of Palladium-Incorporated Silicate-Structured Mesoporous Catalysts”, Turk J. Chem., 31,473-478 (2007).

57.  Varışlı, D., Dogu, T., Dogu, G.,”Ethylene and Diethyl-ether Production by Dehydration Reaction of Ethanol Over Different Heteropolyacid catalysts”, Chem. Eng. Science, 62, 5349-5352 (2007). (*)

58.  Ozdogan, E., Dogu T., Dogu G., “Ni-MCM-41 type mesoporous catalysts synthesızed by one-pot hydrothermal procedure for steam reformıng of ethanol”, Int. J. Chem. Reactor Eng., 5, A111 (2007). (*)

59.  Kocabas, S., Kopac, T.,  Dogu, G., Dogu, T., “Effect of thermal treatments and palladium loading on hydrogen sorption characteristics of single-walled carbon nanotubes”, International Journal of Hydrogen Energy, 33, 1693-1699 (2008). (*)

60.  Yener, J.,  Kopac T., Dogu, G., Dogu, T., “Dynamic analysis of sorption of Methylene Blue dye on granular and powdered activated carbon”, Chem. Eng. J., 144, 400-406 (2008). (*)

61.  Ozaydin Z., Yasyerli S., Dogu G., “ Synthesis and activity comparison of Copper incorporated MCM-41 type sorbents prepared by one-pot and impregnation procedures for H2S removal”, Ind. Eng. Chem. Res., 47, 1035 (2008). (*)

62.  Varışlı, D., Dogu, T., Dogu, G.,”Silicotungstic acid impregnated MCM-41 like mesoporous solid acid catalytsts for dehydration of ethanol”, Ind. Eng. Chem. Res., 47, 4071-4078 (2008).(*)

63.  Değirmenci, L., Oktar, N., Doğu, G., Product Distributions in Ethyl tert-Butyl Ether Synthesis over Different Solid Acid Catalysts, Ind. Eng. Chem. Res., 48, 2566-2576 (2009).(*)

64.  Varışlı, D., Doğu, T., Doğu, G.,”Novel mesoporous nanocomposite WO-silicate acidic catalysts: Ethylene and diethylether from ethanol”, Ind. Eng. Chem. Res., 48, 9394-9401 (2009).(*)

65.  Varisli D., Tokay K.C., Ciftci A., Dogu T., Dogu, G., Methanol dehydration reaction to produce clean diesel alternative dimethylether over mesoporous aluminosilicate-based catalysts,  Turkish Journal of Chemistry, 33(3),355-366 (2009).(*)

66.  Arbag H., Yasyerli S., Yasyerli N.,Doğu G., “Activity and Stability Enhancement of Ni-MCM-41 Catalysts by Rh Incorporation for Hydrogen from Dry Rreforming of Methane”,  International Journal of Hydrogen Energy, 35, 2296-2304 (2010).(*)

67.  Ozbay, N., Oktar, N., Dogu, G., Dogu, T. “Conversion of Biodiesel By-Product Glycerol to Fuel Ethers over Different Solid Acid Catalysts”, Int. J. Chem. React. Eng., Vol. 8, Article A18, 2010.(*)

68.  Varisli, D., Dogu, T., Dogu, G., “Petrochemicals From Ethanol Over a W–Si-based Nanocomposite Bidisperse Solid Acid Catalyst” Chem. Eng. Sci., 65, 153-159 (2010).(*)

69.  Degirmenci, L., Oktar, N., Dogu, G., “ETBE Synthesıs Over Silicotungstic Acid and Tungstophosphoric Acıd Catalysts Calcined at Different Temperatures”, Fuel Process. Technol.,  91,737-742 (2010). (*)

70.  Aktas, O., Yasyerli, S., Dogu, G., Dogu, T., “Effect of Synthesis Conditions on the Structure and Catalytic Performance of Vand Ce-Incorporated SBA-15-like Materials in Propane Selective Oxidation”, Ind. Eng. Chem. Res., 49(15), 6790-6802 (2010). (*)

71.  N.V. Vlasenko, Yu.N. Kochkin, P.E.Strizhak, T.Dogu, G.Dogu, N. Oktar, L.Degirmenci
Catalytic Characteristics of Bulk and Loaded Sulfonic Resins in Ethyl-tert-butyl Ester Synthesis Under Atmospheric and Elevated Pressure, Theoretical and Experimental Chemistry, Vol. 46 (2010) N 4, p.252-256.

72.  Degirmenci, L., Oktar, N., Dogu, G., “Activated Carbon Supported Silicotungstic Acid Catalysts for ETBE Synthesis”, AIChE J., 57 (11), 3171-3181, (2011).

73.  Yasyerli,S., Filizgok, S., Arbag, H., Yasyerli, N., Dogu, G., “Ru incorporated Ni-MCM41 mesoporous catalysts for dry reforming of methane: Effects of Mg addition, feed composition and temperature”, International Journal of Hydrogen Energy, 36, 4863-4874 (2011).

74.  Aktaş, Ö., Yaşyerli, S., Doğu, G., Doğu, T., “Structural variations MCF and SBA-15-like mesoporous materials as a result of differences in synthesis solution pH”, Materials Chemistry and Physics, 131, 151-159, (2011).

75.  Tokay, K.C., Doğu, T., Doğu, G., “Dimethyl ether synthesis over alumina based catalysts”, Chem.Eng. J., ., 184, 278-285, 2012.

76.  Nalan Ozbay, Nuray Oktar, Gülşen Doğu, Timur Doğu.,Effects of sorption enhancement and isobutene formation on etherification of glycerol with tert-butyl alcohol in a flow reactor”, Ind. Eng. Chem. Res., 51, 8788–8795, 2012.

77.  Arbag, H., Yasyerli, S., Yasyerli, N., Dogu, G., Dogu, T., “Coke Minimization in Dry Reforming of Methane by Ni Incorporated Mesoporous Alumina Catalysts Synthesized Following Different Routes: Effects of W and Mg”, Topics in Catalysis, (Davetli Makale) Professor Umit Ozkan Onuruna Özel Sayı, basım aşamasında, 2013.

78. Nalan Ozbay, N., Oktar, N., Dogu,G., Dogu, T., “Activity  Comparison of Different Solid Acid Catalysts in Etherification of Glycerol with tert-Butyl Alcohol  in Flow and Batch Reactors”, Topics in Catalysis, (Davetli Makale) Professor Umit Ozkan Onuruna Özel Sayı, basım aşamasında, 2013.