Presentation is loading. Please wait.

Presentation is loading. Please wait.

INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 1 Institute of Catalysis and Surface Chemistry Polish Academy.

Published byMargaretMargaret Bruce Modified over 8 years ago

Similar presentations

Presentation on theme: "INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 1 Institute of Catalysis and Surface Chemistry Polish Academy."— Presentation transcript:

1 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 1 Institute of Catalysis and Surface Chemistry Polish Academy of Sciences 6 months research activities new catalyst formulations based on Cu-Mn mixed oxides synthesis physico-chemical characterization preliminary catalytic testing WP2.2 Advanced Catalyst Development

2 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 2 Synthetic approach for preparation of mixed oxide precursors: citrate method (sol-gel) hydrotalcite method WP2.2 Advanced Catalyst Development

3 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 3 WP2.2 Advanced Catalyst Development Cu(II), Mn(II), Al(III) nitrates 2.5 M Citric acid Viscous solution Citrate Gel Xerogel Mixed oxide Calcination 550 o C Drying 250 o C Stirring 65 o C Citrate methodHydrotalcite method Cu(II), Mn(II), Al(III) nitrates 1 M Na 2 CO 3 /NaOH Precipitation pH=9, 55 o C Hydrotalcite Mixed oxide Calcination 450 o C Drying 50 o C

4 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 4 Brucite Mg(OH) 2 Hydrotalcite [(Mg 0.75 Al 0.25 )(OH) 2 ](CO 3 ) 0.125 ·0.5H 2 O [(Mg 0.75 Al 0.25 )(OH) 2 ] 0.25+ (CO 3 ) 2- 0.125 (H 2 O) 0.5 Synthetic hydrotalcite [M 2+ (1-x) M 3+ x (OH) 2 ] x+ A n- x/n  yH 2 O

5 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 5 Synthetic hydrotalcite [M 2+ (1-x) M 3+ x (OH) 2 ] x+ A n- x/n Synthetic hydrotalcite M 2+ = Mg, Ni, Zn, Fe, Co, Cu, Mn… M 3+ = Al, Mn, Fe, Cr …. A n - = CO 3 2 –, NO 3 -, Cr 2 O 7 2-, PMo 12 O 40 3- … 0.20<x<0.33 [M 2+ (1-x) M 3+ x ](OH) 2 A n- [M 2+ (1-x) M 3+ x ](OH) 2 A n- H2OH2OH2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O H2OH2O Natural Hydrotalcite M 2+ = Mg 2+ M 3+ = Al 3+ A n- = CO 3 2-, NO 3 - x = 0.25 WP2.2 Advanced Catalyst Development

6 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 6 WP2.2 Advanced Catalyst Development XRD of Cu-Mn-Al hydrotalcite-like precursors

7 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 7 WP2.2 Advanced Catalyst Development Thermal decomposition of CuMnAl/1:1:1/ hydrotalcite-like precursor monitored in a high temperature XRD chamber

8 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 8 Sample Oxidic phases after calcination at 373 K473 K573 K673 K773 K873 K973 K1073 K1173 K CuAlCO 3 (2:1) HT --- CuO Cu 2 Al 4 O 7 CuO Cu 2 Al 4 O 7 CuO Cu 2 Al 4 O 7 CuMnAlCO 3 (12:5:1) HT R R--- CuMn 2 O 4 CuO CuMn 2 O 4 CuO CuMn 2 O 4 CuO CuMn 2 O 4 CuO CuMn 2 O 4 CuO CuMnAlCO 3 (4:4:1) HT R R--- CuMn 2 O 4 CuO traces Mn 2 O 3 traces CuMn 2 O 4 CuO Mn 2 O 3 Mn 2 AlO 4 CuMn 2 O 4 CuO Mn 2 AlO 4 CuMn 2 O 4 CuO CuMnO 2 MnAl 2 O 4 CuMnAlCO 3 (2:1:1) HT--- CuMn 2 O 4 CuO traces CuMn 2 O 4 MnAl 2 O 4 CuO CuMn 2 O 4 MnAl 2 O 4 CuO CuMn 2 O 4 CuO MnAl 2 O 4 CuMnAlCO 3 (1:1:1) HT R R--- CuMn 2 O 4 (weak) Mn 1+x Al 2-x O 4 CuMn 2 O 4 Mn 2 AlO 4 MnAl 2 O 4 CuMn 2 O 4 CuO Mn 2 AlO 4 CuMn 2 O 4 CuO Mn 2 AlO 4 CuMnAlCO 3 (1:2:1) HT R R--- CuMn 2 O 4 Mn 2 O 3 CuMn 2 O 4 Mn 2 O 3 Mn 2 AlO 4 CuMn 2 O 4 Mn 2 O 3 traces Mn 2 AlO 4 CuMn 2 O 4 MnAlCO 3 (2:1) HT R --- Mn 3 O 4 Mn 2 AlO 4 Mn 2 O 3 Mn 2 AlO 4 WP2.2 Advanced Catalyst Development

9 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 9 XRD of mixed oxides derived from hydrotalcite-like precursors WP2.2 Advanced Catalyst Development

10 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 10 Bulk vs. surface chemical composition SampleCu:Mn:Al atomic ratios -bulk values (ICP OES) Cu:Mn:Al atomic ratios -surface values (XPS) BET [m 2 /g] CuMnAl (12:5:1)13:5.1:14.7:2.1:14.7:2.1:155 CuMnAl (4:4:1)4.1:4.2:14.1:4.2:10.9:1.6:10.9:1.6:161 CuMnAl (1:1:1)1.1:1.2:11.1:1.2:11.2:1.8:11.2:1.8:196 CuMnAl (2:1:1)2.1:1.1:12.1:1.1:11.2:0.6:11.2:0.6:162 CuMnAl (1:2:1)1.1:2.2:11.1:2.2:10.9:1:10.9:1:1132 MnAl (2:1)2.3:12.3:10.4:10.4:1237 CuAl (2:1)2.2:12.2:10.2:10.2:130 WP2.2 Advanced Catalyst Development

11 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 11 CuMnAl (1:1:1) HAADF STEM shows that CuMnAl (1:1:1) is a mixture of semi-amorphous oxide phases of different composition. HRTEM proves that one of them is nanocrystalline spinel CuMn 2 O 4. HAADF STEM Transmission Electron Microscopy STEM of CuMnAl 6:2:1 5 nm HRTEM WP2.2 Advanced Catalyst Development

12 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 12 WP2.2 Advanced Catalyst Development CuAl (2:1)CuMnAl (2:1:1)CuMnAl (4:4:1) precursor calcined Scanning Electron Microscopy

13 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 13 Cu 2p 3/2,1/2 Mn 2p 3/2,1/2 XPS Sample% Cu + % Cu 2+ % Mn 2+ % Mn 4+ CuMn 135 0 C5.15.142.6531.568.5 CuMn 240 0 C61.235.527.572.5 Contribution of various Cu and Mn oxidation states at the surface of a CuMnAl/2:1:1/Ht catalyst after exposure to air at different temperatures reduction oxidation WP2.2 Advanced Catalyst Development

14 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 14 WP2.2 Advanced Catalyst Development H 2 TPR of Cu-Mn-Al mixed oxides derived from hydrotalcite precursors

15 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 15 WP2.2 Advanced Catalyst Development XRD patterns of Cu-Mn-Al mixed oxides derived from citrate precursors.

16 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 16 WP2.2 Advanced Catalyst Development MnAl/2:1/Ht MnAl/2:1/Cit Influence of the nature of precursor 237 m 2 /g77 m 2 /g

17 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 17 WP2.2 Advanced Catalyst Development CH 4 combustion fixed-bed flow glass reactor, p=1 bar, temperature = 175-525 o C, catalyst - 0.5 ml, [CH 4 ] = 1g/m 3, GHSV = 10 000 h -1. Sample T 50 [ o C] BET [m 2 /g] CuMnAl/4:4:1/Ht38961 CuMnAl/1:2:1/Ht411132 MnAl/2:1/Ht412237 CuAl/2:1/Ht 470 30 MnAl/2:1/Cit47877 MnAl/1:2/Cit439324 Cu/Mn/1:2/Cit45818 ECOCAT washcoat255n.d.

18 INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 18 WP2.2 Advanced Catalyst Development Future action Further exploration along the compositions based on mixed Cu and Mn oxides, aiming at maximization of the specific surface area and simultaneous formation of the copper-rich spinel phase. Investigation of compositions enriched with promoters (e.g. Ce, Zr). Synthesis of perovskite and hexaaluminate precursors containing Co and La.

Download ppt "INGAS 6-months Meeting, Prague, Czech Republic, 25-26 May 2009 INGAS INtegrated GAS Powertrain 1 Institute of Catalysis and Surface Chemistry Polish Academy."

Similar presentations

Redox Reactions Chapter 7. Redox Reactions Oxidation-Reduction (Redox) Reactions Redox reactions involve an electron transfer. These reaction occur between.

Redox Reactions Chapter 7. Redox Reactions Oxidation-Reduction (Redox) Reactions Redox reactions involve an electron transfer. These reaction occur between.
Reaction Engineering at Birmingham Joe Wood, Bushra Al-Duri, Suzanne Al-Samaq C-Cycle Project: Capture of Carbon Dioxide and Reforming to Make Hydrogen.

Reaction Engineering at Birmingham Joe Wood, Bushra Al-Duri, Suzanne Al-Samaq C-Cycle Project: Capture of Carbon Dioxide and Reforming to Make Hydrogen.
TPR-MS Insitu analysis for optimum CNT of Fe & Ni/Carbon system Ali Rinaldi, Norly Abd, Imran Syakir.

TPR-MS Insitu analysis for optimum CNT of Fe & Ni/Carbon system Ali Rinaldi, Norly Abd, Imran Syakir.
PM Chemical Composition Jiří Smolík, Jaroslav Schwarz Institute of Chemical Process Fundamentals AS CR, Praha.

PM Chemical Composition Jiří Smolík, Jaroslav Schwarz Institute of Chemical Process Fundamentals AS CR, Praha.
Summary of NC200 work Imran & Norli Updated: 2/8/2007.

Summary of NC200 work Imran & Norli Updated: 2/8/2007.
SYNTHESIS AND PROPERTIES OF SUPRAMOLECULAR COMPOUNDS ON THE BASE OF LAYERED DOUBLE HYDROXIDES Isupov V.P., Tarasov K.A., Chupakhina L.E., Mitrofanova R.P.,

SYNTHESIS AND PROPERTIES OF SUPRAMOLECULAR COMPOUNDS ON THE BASE OF LAYERED DOUBLE HYDROXIDES Isupov V.P., Tarasov K.A., Chupakhina L.E., Mitrofanova R.P.,
The Synthesis of Carbon Nanotube on Activated Carbon Prof. Dr. Sharifah Bee Abd Hamid, Imran Syakir Mohamad, Norli Abdullah, Ali Rinaldi Combinatorial.

The Synthesis of Carbon Nanotube on Activated Carbon Prof. Dr. Sharifah Bee Abd Hamid, Imran Syakir Mohamad, Norli Abdullah, Ali Rinaldi Combinatorial.
Preparation & Characterization of heterogeneous catalyst

Preparation & Characterization of heterogeneous catalyst
Preparation of catalysts - ExercisesDalian, March-April 20121/xx DICP Course - Dalian, 2012 Preparation of solid catalysts Exercises Supported by the Chinese.

Preparation of catalysts - ExercisesDalian, March-April 20121/xx DICP Course - Dalian, 2012 Preparation of solid catalysts Exercises Supported by the Chinese.
Characterization of fly ash generated from Bakreswar Thermal Power Plant Dr. Arabinda Mondal Department of Silpa-Sadana, PSV, Visva-Bharati, Sriniketan.

Characterization of fly ash generated from Bakreswar Thermal Power Plant Dr. Arabinda Mondal Department of Silpa-Sadana, PSV, Visva-Bharati, Sriniketan.
1 Proposal Simultaneous transesterification and esterification using lanthanum- containing nanoparticles as catalyst for biodiesl production Shuli YAN.

1 Proposal Simultaneous transesterification and esterification using lanthanum- containing nanoparticles as catalyst for biodiesl production Shuli YAN.
Hot gas cleaning in biomass gasification Skoblja S., Malecha J., Koutský B., Solich M. 16.09.2004 ICT Prague Department of Gas, Coke and Air Protection.

Hot gas cleaning in biomass gasification Skoblja S., Malecha J., Koutský B., Solich M ICT Prague Department of Gas, Coke and Air Protection.
Preparation of heterogeneous catalyst

Preparation of heterogeneous catalyst
INGAS 18-months Meeting, Paris, France, 20-21 May 2010 INGAS INtegrated GAS Powertrain Institute of Catalysis and Surface Chemistry Polish Academy of Sciences.

INGAS 18-months Meeting, Paris, France, May 2010 INGAS INtegrated GAS Powertrain Institute of Catalysis and Surface Chemistry Polish Academy of Sciences.
Quenching of positronium in Al 2 O 3 supported catalysts Department of Physics, Wuhan University, Wuhan 430072, P. R. China Z. Q. Chen, H. J. Zhang and.

Quenching of positronium in Al 2 O 3 supported catalysts Department of Physics, Wuhan University, Wuhan , P. R. China Z. Q. Chen, H. J. Zhang and.
Insert Short Title of Project Insert Names Insert Project Information Combination of Chemical-Looping Combustion and Hydrothermal Conversion Combining.

Insert Short Title of Project Insert Names Insert Project Information Combination of Chemical-Looping Combustion and Hydrothermal Conversion Combining.
CH.3 Balancing Reactions Reaction Types

CH.3 Balancing Reactions Reaction Types
Present at AIChE Meeting Nov. 20, 2008

Present at AIChE Meeting Nov. 20, 2008
LEFT CLICK OR PRESS SPACE BAR TO ADVANCE, PRESS P BUTTON TO GO BACK, PRESS ESC BUTTON TO END LEFT CLICK OR PRESS SPACE BAR TO ADVANCE, PRESS P BUTTON.

LEFT CLICK OR PRESS SPACE BAR TO ADVANCE, PRESS P BUTTON TO GO BACK, PRESS ESC BUTTON TO END LEFT CLICK OR PRESS SPACE BAR TO ADVANCE, PRESS P BUTTON.
Chemical & Process Engineering Novel Material for the Separation of Mixtures of Carbon Dioxide and Nitrogen Mohamed A. M. Elsayed Supervisors : Prof. P.

Chemical & Process Engineering Novel Material for the Separation of Mixtures of Carbon Dioxide and Nitrogen Mohamed A. M. Elsayed Supervisors : Prof. P.

Similar presentations

Ads by Google