CaO/MgO和CaO/Ca9Al6O18同时捕集CO2/SO2的循环吸收特性

以葡萄糖酸钙与葡萄糖酸镁及L-乳酸铝为前驱物,湿法制得了四种CaO/MgO和CaO/Ca₉Al₆O₁₈吸收剂,并进行了同时捕集CO₂/SO₂的实验。考察了吸收剂种类、质量配比、SO₂浓度及煅烧温度等对吸收剂吸收性能的影响。结果表明,CaO/MgO(质量比为75%/25%)吸收剂和CaO/Ca₉Al₆O₁₈(质量比为75%/25%)吸收剂分别保持了最好的吸收CO₂能力和最好的循环稳定性。SO₂严重阻碍了吸收剂对CO₂的捕集。SO₂浓度越高,吸收剂吸收CO₂能力下降的越快,但同时吸收SO₂的转化率也越高。数次循环后,总的Ca利用率开始上升,且SO₂浓度越高,上升趋势越明显。煅烧温度对CaO/MgO吸收剂和CaO/Ca₉Al₆O₁₈吸收剂循环吸收特性的影响略有不同。     

Mechanism of the thermal decomposition of 3CaO·Al2O3·6D2O

The mechanism of the step I and step II of thermal decomposition of 3CaO · Al₂O₃ · 6D₂O was studied. The presence of Ca(OD)₂ was proved in the products of the first step of decomposition. In the calorimeter cell of the Dupont 990 thermoanalyser the enthalpy changesH _r,I=59.2kJ/mole D₂O for step I (210–410°) andDH _rII,1=69.0 kJ/mole D₂O for the first fast part of the step II (stage 1 of the step I, encompassing the temperature interval 410–560°) were measured. This indicates that the dissociation of Ca(OD)₂ is not the only transition taking place in the first fast part (stage 1) of the step II.

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Zusammenfassung Der Mechanismus der I und II Stufe der thermischen Zersetzung von 3CaO · Al₂O₃ · 6D₂O wurde untersucht. Die Gegenwart von Ca(OD)₂ wurde in den Produkten der ersten Zersetzungsstufe nachgewiesen. In der Kalorimeterzelle des Thermoanalysers Dupont 990 wurde die EnthalpieänderungenH _r,i 59.2 kJ/Mol D₂O für Stufe I (210 bis 410°) undH _r,II,I=69.0 kJ/Mol D₂O für den ersten schnellen Teil der Stufe II (»Etappe 1 der Stufe II «) im Temperaturbereich von 410 bis 560° gemessen. Dies zeigt, daß die Dissoziation von Ca(OD)₂ nicht der einzige Übergang in der ersten, schnellen Phase (Etappe 1) der Stufe II ist.

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Résumé On a étudié le mécanisme des deux premières étapes de la décomposition thermique de 3CaO · Al₂O₃ · 6D₂O. La présence de Ca(OD)₂ a été mise en évidence dans les produits de la première étape de décomposition. Les variations d'enthalpie correspondant à la première et à la deuxième étape de la décomposition ont été mesurées à l'aide de la cellule calorimétrique du thermoanalyseur Dupont 990; elles s'élèvent respectivement àH _i,I= 59.2 kJ/mole D₂O pour l'étape I (210–410°) etH _r,II,1= 69.0 kJ/mole D₂O pour la première partie, rapide, de l'étape II («stade l de l'étape II », couvrant l'intervalle 410–560°). Ceci indique que la dissociation de Ca(OD)₂ n'est pas la seule transition qui ait lieu dans la première partie (stade 1) de l'étape II.

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I II · l₂₃ · 6D₂O. I Ca(OD)₂. 990 (210–410°) H_r,I=59.2 / D₂O, II ( 1 II 410–560°) _r,II,I= =69.0 / D₂O. , Ca(OD)₂ , ( I) II.

     

CO Hydrogenation by K-Promoted Coprecipitated Co/Al2O3

Effect of K promotion on the CO hydrogenation activity and selectivity of coprecipitated Co/Al₂O₃ has been studied. K addition is found to lower total activity while enhancing C₂-C₄ olefins selectivity; kinetic data indicate that the reaction mechanism is not affected.     

SO2 retention by highly cycled modified CaO-based sorbent in calcium looping process

The limestone modified by pyroligneous acid has been proved to have good CO₂ capture behavior in the calcium looping process. In this work, SO₂ retention of the highly cycled modified limestone in the carbonation/calcination cycles was investigated in a thermogravimetric analyzer (TG). The cyclic carbonation/calcination of the modified limestone was performed in a dual fixed-bed reactor and then the cycled modified limestone was sent for sulfation in TG. The effects of sulfation temperature, cycle number, and prolonged carbonation on SO₂ retention of the cycled modified limestone were discussed. The optimum temperature for sulfation of the cycled modified limestone should be in the range of 900–950 °C. The effect of sulfation temperature on SO₂ retention of the modified limestone drops with increasing cycle number. With increasing cycle number from 20 to 100, the sulfation conversion of the cycled modified limestone is stable and can reach ~0.4. The cycled modified limestone exhibits obviously higher SO₂ retention than the cycled raw one for the same number of cycles. The prolonged carbonation increases SO₂ retention of the modified limestone and the raw one after the subsequent cycles. The sulfation conversions of the modified limestone and the raw one at 118 min after 9-h carbonation in the 20th cycle increase 43 and 56 %, respectively. The cycled modified limestone shows a greater SO₂ retention than the cycled raw one after the same prolonged carbonation treatment. The prolonged carbonation increases the pores in 5–20 nm range which is considered the optimum pore size for sulfation of CaO-based sorbent, so it results in an improvement in SO₂ retention of the cycled sorbents.     

La2O3对Ni-Mo/γ-Al2O3催化剂CO和CO2甲烷化的影响

采用浸渍法制备了一系列Ｎｉ－Ｍｏ－Ｌａ／γ－Ａｌ２Ｏ３催化剂并测定了催化剂的ＣＯ和ＣＯ２甲 化活性采用ＴＥＭ,ＸＰＳ和ＣＯ化学吸附等手段研究了表面性质。结果表明,Ｌａ２Ｏ３的咖入提高了Ｎｉ－Ｍｏ／γ／Ａｌ２Ｏ３催化剂的ＣＯ和ＣＯ２甲烷化活性,增加了催化剂中Ｎｉ的分散度,活性表面积及催化剂表面Ｎｉ原子的浓度,降低了电子结合能。     

KF/K2CO3/Al2O3催化合成香豆素

以Al2O3负载KF/K2CO3催化合成香豆素,水杨醛100 mmol,n(水杨醛)∶n(乙酸酐)∶n(KF/K2CO3/Al2O3)=1.0∶3.0∶0.3,于165℃反应2 h,香豆素产率高达89.8%。     

纳米ZrO2/Al2O3复合载体及Ni/ZrO2/Al2O3催化剂的性能研究

 采用溶胶-凝胶法在经过扩孔处理的Al2O3基载体上制备了纳米ZrO2/Al2O3复合载体,并通过浸渍法制备了NiO/ZrO2/Al2O3催化剂. 用XRD,TPR,TPD和N2吸附等技术分别考察了载体和催化剂的结构及表面性能,研究了复合载体对Ni/ZrO2/Al2O3催化CO2重整CH4反应性能的影响. 结果表明,纳米ZrO2/Al2O3复合载体具有较大的比表面积、适宜的孔径分布及稳定的t-ZrO2结构,Ni/ZrO2/Al2O3催化剂具有较好的CO2重整CH4反应活性和稳定性.     

负载型纳米ZrO2/Al2O3复合载体的制备和表征及其Ni/ZrO2/Al2O3催化性能的研究

以大孔Al2O3为基载体，采用沉积-沉淀法和溶胶-沉积法制备了负载型纳米ZrO2/Al2O3复合载体．用XRD、TEM和比表面与孔径测定等手段对载体进行了表征．结果表明，负载型纳米ZrO2/Al2O3复合载体具有较大的比表面积和适宜的孔径分布，纳米ZrO2在载体上呈单层均匀分布．以CH4-CO2重整制合成气为探针反应，考察了Ni/ZrO2/Al2O3催化剂的活性和选择性．     

Coking-resistant Ni-ZrO2/Al2O3 catalyst for CO methanation

Highly coke-resisting Zr O2-decorated Ni/Al2O3 catalysts for CO methanation were prepared by a two-step process. The support was first loaded with Ni O by impregnating method and then modified with Zr O2 by deposition-precipitation method(IM-DP). Nitrogen adsorptiondesorption, X-ray diffraction, scanning electron microscopy, transmission electron microscopy, thermogravimetric analysis, H2 temperatureprogrammed reduction and desorption, NH3temperature-programmed desorption, and zeta potential analysis were employed to characterize the samples. The results revealed that, compared with the catalysts with the same composition prepared by co-impregnation(CI) and sequential impregnation(SI) methods, the Ni/Al2O3 catalyst prepared by IM-DP showed much enhanced catalytic performance for syngas methanation under the condition of atmospheric pressure and a high weight hourly space velocity of 120000 m L g-1 h-1. In a 80 h life time test under the condition of 300–600°C and 3.0 MPa, this catalyst showed high stability and resistance to coking, and the amount of deposited carbon was only 0.4 wt%. On the contrary, the deposited carbon over the catalyst without Zr O2 reached 1.5 wt% after a 60 h life time test. The improved catalytic performance was attributed to the selective deposition of Zr O2 nanoparticles on the surface of Ni O rather than Al2O3, which could be well controlled via changing the electrostatic interaction in the DP procedure. This unique structure could enhance the dissociation of CO2 and generate surface oxygen intermediates, thus preventing carbon deposition on the Ni particles in syngas methanation.     

硫化CoMo/Al2O3-TiO2催化剂上CO催化还原SO2的研究

报导了Al2O3、Al2O3-TiO2和TiO2担载的硫化CoMo催化剂上CO催化还原SO2的规律性,结果表明分别在350 ℃、350～400 ℃间和400 ℃完全转化为CO2和元素S.在含TiO2的催化剂上,CO-SO2反应可同时按COS中间物机理和Redox机理进行,从而使尾气中COS的含量大为降低,提高了生成元素S的选择性.对反应机理进行了讨论.     

Oscillatory formation of CO hydrogenation products on Pd/Al2O3

Translated from Teoreticheskaya i Éksperimental'naya Khimiya, Vol. 26, No. 3, p. 384, May–June, 1990.     

SGCS-made ultrafine CaO/Al_2O_3 sorbent for cyclic CO_2 capture

Multi-cyclic CaO carbonation/calcination is an attractive method for CO₂ capture during coal combustion.However,the capture capacity of CaO sharply decreases with increasing carbonation/calcination cycles.In order to improve the stability of CO₂ capture capacity of CaO during carbonation/calcination cycles,synthetic CaO/Al₂O₃ sorbents were synthesized by two methods:wet chemistry and sol-gel-combustion-synthesis（SGCS） to make a further comparison.The results indicate that the SGCS-made CaO/ Al₂O₃ = 80:20 wt%sorbent provides a competitive performance of a capture capacity of 0.43 g-CO₂/g-sorbent after 20 cycles.     

Cu-Ni双金属催化剂上CO2的加氢反应

采用真空浸渍法,制备了Ｃｕ－Ｎｉ双金属催化剂（引入Ｃｕ前,Ｎｉ以不同的状态存在）,在连续流动微型反应装置上测试各催化剂的ＣＯ２加氢性能,并用ＸＲＤ方法对催化剂进行了表征。实验发现,与Ｃｕ／ＡＩ２Ｏ３催化剂相比,Ｃｕ－Ｎｉ／ＡＩ２Ｏ３催化剂上ＣＯ２逆变换反应的活性因Ｎｉ的存在而受到抑制,Ｃｕ引入前处于氧化态的Ｎｉ,对所制得的Ｃｕ－Ｎｉ催化剂上ＣＯ生成的抑制更为明显,Ｃｕ－Ｎｉ－Ｉ２Ｏ３双金属催化剂表     

Au/MOx/Al2O3催化剂催化CO低温氧化

 采用沉积沉淀法，将金负载在复合氧化物载体MOx/Al2O3上，制备得到了Au/MOx/Al2O3催化剂的活性要高于Au/Al2O3催化剂。Au/FeOx/Al2O3催化剂能够在低于223K的温度下实现CO完全催化氧化。TEM图象分析表明，纳米级高分散的金颗粒是金催化剂高活性的前提，但载体的选择，以及复合氧化物载体中过渡金属氧化物的选择，也会对金催化剂的活性产生明显的影响。     

氢气对Ag/Al2O3和Cu/Al2O3催化剂选择性催化C3H6还原Nox反应的影响

 添加H2对Ag/Al2O3和Cu/Al2O3催化剂选择性催化C3H6还原NOx反应具有不同的影响. 原位漫反射红外光谱分析表明,在Ag/Al2O3催化剂上, H2的存在促进了C3H6部分氧化产物烯醇式物种(RCH=CH-O-)和乙酸盐等的形成,烯醇式物种和硝酸盐为主要反应中间体,二者间的相互反应性能很强,能形成高浓度的反应关键中间体异氰酸酯(-NCO)表面吸附物种,因此NOx的去除活性提高; 而在Cu/Al2O3催化剂上, H2的存在并没有促进C3H6部分氧化产物的形成,而且抑制了硝酸盐的形成,进而抑制了C3H6部分氧化产物与硝酸盐反应形成表面-NCO 物种,导致NOx的去除活性降低.