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1.

La2O3对沼气重整制氢催化剂Ni/γ-Al2O3的影响 总被引：4，自引：0，他引：4

徐军科任克威王晓蕾周伟潘相敏马建新《物理化学学报》2008,24(9)

用浸渍法制备了不同La2O3含量的Ni/La2O3/γ-Al2O3催化剂,用CH4/CO2体积比为1的混合气体模拟沼气,考察了La2O3对沼气重整制氢催化剂Ni/γ-Al2O3的结构及催化性能的影响.运用XRD、H2-TPR、BET及TEM等手段对催化剂进行了表征.结果表明,La2O3对催化剂Ni/γ-Al2O3的影响主要取决于其含量.载体中La2O3的添加增强了Ni与Al2O3之间的相互作用.添加适量的La2O3能使催化剂具有更好的可还原性,并能增加金属Ni的分散性,抑制反应过程中Ni的烧结,提高载体对CO2的吸附能力,从而改善了催化剂的抗积炭性,使催化剂具有较好的活性及稳定性.反之,过量La2O3的掺杂会使催化剂的抗积炭性及活性下降.当La2O3含量为6%(ω)时,催化剂中Ni晶粒具有较好的分散性、还原性及抗积炭性,从而使催化剂具有更好的活性及稳定性. 相似文献

2.

CO₂预处理操作条件对Ni-Co双金属催化剂性能与结构的影响

赵健周伟马建新《物理化学学报》2001,30(7):1325-1331

与传统H₂预处理方法相比,新型H₂+CO₂预处理方法（HCD）能显著提升Ni-Co双金属催化剂的沼气重整活性及抗积碳性能. 考察了HCD预处理操作条件对催化剂性能与结构的影响. 较好的HCD预处理操作条件是在催化剂经H₂处理之后,再用175-200 mL·min^-1的原料气CH₄/CO₂（比例为0：10）在780-800 ℃下还原0.5-1h. 在优化预处理操作条件下对催化剂进行了511 h的耐久性考察,并运用X射线衍射（XRD）、热重-差示扫描量热（TG-DSC）、透射电子显微镜（TEM）等手段对耐久性测试后的催化剂进行了表征. 在511 h 的稳定性实验内,CH₄、CO₂转化率,H₂、CO选择性及H₂/CO体积比分别高达96%、97%,98%、99%及0.98. 催化剂在测试期间的平均积碳速率仅为0.2 mg·g^-1·h^-1. 在该预处理操作参数下,催化剂拥有最好的综合性能和良好的耐久性. 相似文献

3.

轻工业纤维素生物质过程残渣能源化技术 总被引：1，自引：0，他引：1

许光文纪文峰万印华刘春朝《化学进展》2007,19(7):1164-1176

以农产品为原料的轻工业大都是典型的流程工业,在通过转化过程将原料转化为食品、饮料、添加剂、调味料、纸和中成药等产品的同时产生被称为过程残渣的固体废物与废料,如白酒糟、酒精糟、醋糟、甘蔗渣、中药渣、油粕、酱渣、菌渣和造纸黑液可熔渣等.这些残渣产生于特定的生产过程,富含纤维素、蛋白质或木质素,因此代表一种已经被集中的生物质资源.它们同时含水50%-80%、易腐烂变质、甚至呈弱酸碱性,因此是重要的环境污染源.本文着眼于轻工生物质过程残渣的高值化利用,分析指出富含纤维素的白酒糟、醋糟、甘蔗渣、中药渣、茶渣和造纸边角料等适合作为生物质能源而被转化利用,并根据资源特征提出了可能的技术路线.通过分别对热化学路线涉及的脱水干燥、燃烧发电与气化发电技术和集成乙醇发酵、沼气发酵的复合转化技术进行技术综述,最后针对不同规模的富含纤维素轻工生物质过程残渣能源化提供了技术选择建议. 相似文献

4.

轻工业纤维素生物质过程残渣能源化技术 总被引：1，自引：0，他引：1

许光文纪文峰万印华刘春朝《化学进展》2007,(Z2)

以农产品为原料的轻工业大都是典型的流程工业,在通过转化过程将原料转化为食品、饮料、添加剂、调味料、纸和中成药等产品的同时产生被称为过程残渣的固体废物与废料,如白酒糟、酒精糟、醋糟、甘蔗渣、中药渣、油粕、酱渣、菌渣和造纸黑液可熔渣等。这些残渣产生于特定的生产过程,富含纤维素、蛋白质或木质素,因此代表一种已经被集中的生物质资源。它们同时含水50%—80%、易腐烂变质、甚至呈弱酸碱性,因此是重要的环境污染源。本文着眼于轻工生物质过程残渣的高值化利用,分析指出富含纤维素的白酒糟、醋糟、甘蔗渣、中药渣、茶渣和造纸边角料等适合作为生物质能源而被转化利用,并根据资源特征提出了可能的技术路线。通过分别对热化学路线涉及的脱水干燥、燃烧发电与气化发电技术和集成乙醇发酵、沼气发酵的复合转化技术进行技术综述,最后针对不同规模的富含纤维素轻工生物质过程残渣能源化提供了技术选择建议。相似文献

5.

实验室发酵制取沼气的方法 总被引：1，自引：0，他引：1

骆仁新《化学教育》2001,22(3):43-43

设计实验室发酵制取沼气的方法,不仅便于演示沼气的生产原理,对研究沼气的生产也有重要意义。相似文献

6.

轻工业纤维素生物质过程残渣能源化技术

许光文纪文峰万印华刘春朝《化学进展》2007,(8)

以农产品为原料的轻工业大都是典型的流程工业,在通过转化过程将原料转化为食品、饮料、添加剂、调味料、纸和中成药等产品的同时产生被称为过程残渣的固体废物与废料,如白酒糟、酒精糟、醋糟、甘蔗渣、中药渣、油粕、酱渣、菌渣和造纸黑液可熔渣等.这些残渣产生于特定的生产过程,富含纤维素、蛋白质或木质素,因此代表一种已经被集中的生物质资源.它们同时含水50%-80%、易腐烂变质、甚至呈弱酸碱性,因此是重要的环境污染源.本文着眼于轻工生物质过程残渣的高值化利用,分析指出富含纤维素的白酒糟、醋糟、甘蔗渣、中药渣、茶渣和造纸边角料等适合作为生物质能源而被转化利用,并根据资源特征提出了可能的技术路线.通过分别对热化学路线涉及的脱水干燥、燃烧发电与气化发电技术和集成乙醇发酵、沼气发酵的复合转化技术进行技术综述,最后针对不同规模的富含纤维素轻工生物质过程残渣能源化提供了技术选择建议. 相似文献

7.

CO2预处理操作条件对Ni-Co双金属催化剂性能与结构的影响

ZHAO Jian ZHOU Wei MA Jian-Xin 《物理化学学报》2014,30(7):1325-1331

The performance of the Ni-Co bimetallic catalyst was significantly improved by a novel H₂ and CO₂ (HCD) pretreatment in the dry reforming of methane compared with traditional H₂ pretreatment. The effects of the HCD pretreatment operating conditions, such as pretreatment time, temperature, gas feeding ratio, and gas flow rate, on the catalytic performance of Ni-Co bimetallic catalyst were investigated. The optimal pretreatment time, temperature, gas feeding ratio (CH₄/CO₂), and gas flow rate were 0.5-1 h, 780-800 ℃, 0:10, and 175-200 mL·min^-1, respectively. Biogas was simulated with CH₄ and CO₂ in a volume ratio of 1 and without any other diluted gas. The catalyst was characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), and thermogravimetry (TG) coupled to differential scanning calorimetry (DSC). In a 511 h stability test under the optimized operating conditions, the catalyst pretreated with both H₂ and CO₂ exhibited excellent stability. The average conversions of CH₄ and CO₂, selectivities for H₂ and CO, and volume ratio of H₂/CO were 96%, 97%, 98%, 99%, and 0.98, respectively. The average carbon deposition rate over the Ni-Co bimetallic catalyst was only about 0.2 mg·g^-1·h^-1. The characterization results revealed that the sintering speed of the metal greatly decreased with testing time, and the metal particle will not greatly sinter with further testing time. The amount of deposited carbon on the catalyst gradually decreased and growth of filamentous carbon over the surface of the catalyst could be inhibited. The performance of the Ni-Co bimetallic catalyst was significantly improved by a novel H₂ and CO₂ (HCD) pretreatment in the dry reforming of methane compared with traditional H₂ pretreatment. The effects of the HCD pretreatment operating conditions, such as pretreatment time, temperature, gas feeding ratio, and gas flow rate, on the catalytic performance of Ni-Co bimetallic catalyst were investigated. The optimal pretreatment time, temperature, gas feeding ratio (CH₄/CO₂), and gas flow rate were 0.5-1 h, 780-800 ℃, 0:10, and 175-200 mL·min^-1, respectively. Biogas was simulated with CH₄ and CO₂ in a volume ratio of 1 and without any other diluted gas. The catalyst was characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), and thermogravimetry (TG) coupled to differential scanning calorimetry (DSC). In a 511 h stability test under the optimized operating conditions, the catalyst pretreated with both H₂ and CO₂ exhibited excellent stability. The average conversions of CH₄ and CO₂, selectivities for H₂ and CO, and volume ratio of H₂/CO were 96%, 97%, 98%, 99%, and 0.98, respectively. The average carbon deposition rate over the Ni-Co bimetallic catalyst was only about 0.2 mg·g^-1·h^-1. The characterization results revealed that the sintering speed of the metal greatly decreased with testing time, and the metal particle will not greatly sinter with further testing time. The amount of deposited carbon on the catalyst gradually decreased and growth of filamentous carbon over the surface of the catalyst could be inhibited. Thereby, great catalytic activity and stability could be obtained during the dry reforming of methane reaction. 相似文献

8.

Ni-Co双金属催化剂上沼气重整制氢机理

徐军科沈利红周伟马建新《物理化学学报》2011,27(3):697-704

用传统湿式浸渍法制备了La₂O₃掺杂的商业γ-Al₂O₃负载的沼气重整催化剂Ni-Co/La₂O₃-γ-Al₂O₃, 并用程序升温加氢(TPH)、程序升温氧化(TPO)、程序升温表面反应(TPSR)、程序升温脱附(TPD)及脉冲实验对催化剂进行了表征. 结果表明, 沼气重整过程中Ni-Co/La₂O₃-γ-Al₂O₃催化剂上的表面碳物种主要来源于CH₄的裂解, CO₂的贡献很小. CH₄裂解能够产生三种活性不同的碳物种, 即C_α、C_β与C_γ. 随着反应的进行, C_α物种减小而C_β与C_γ物种增加, 且C_γ物种能够转变为惰性的石墨碳. 重整反应过程中CH₄与CO₂的活化能相互促进. 催化剂表面的O物种与C反应生成CO或与CH_x反应生成CH_xO再分解为CO与吸附态的H物种, 可能是Ni-Co/La₂O₃-γ-Al₂O₃催化剂上沼气重整的速率控制步骤. 相似文献

9.

共聚焦显微拉曼光谱研究碱处理对稻秸发酵制沼气的影响

夏益华罗榴彬李晓丽何勇盛奎川《光谱学与光谱分析》2015,35(3):657-662

碱水解法以其方便高效成为稻秸发酵制沼气中广泛采用的化学预处理方法,但是碱水解对于稻秸细胞壁中高聚物成分及其空间致密交联结构的作用机理有待深入研究。采用共聚焦显微拉曼光谱和透射电镜研究了NaOH碱处理对稻秸厌氧发酵产沼气的影响。首先对未处理稻秸和碱处理稻秸进行微米级空间分辨率的拉曼光谱面扫描,然后对这两类样本进行主成分分析,发现累计贡献率达99%的前两个主成分空间中两类样本分别呈射线状分布,两类样本分界线清楚表明碱处理导致稻叶组织的拉曼光谱响应特性发生了明显变化;进一步分析前两个主成分的载荷图,发现拉曼峰1 739,1 508和1 094 cm-1是影响主成分的重要谱带,而这三个拉曼峰分别归属于半纤维素、木质素和纤维素的拉曼散射效应;结合半纤维素、木质素和纤维素的拉曼特征峰和显微图像信息实现了组织细胞中三种成分的化学成像分析,发现碱处理破坏了稻叶组织中上述三种成分的致密空间结构,并使它们的含量明显减少,尤其是木质素。由此得出结论：共聚焦显微拉曼光谱可实现稻叶组织细胞中半纤维素、木质素和纤维素的无损检测,结合显微空间信息可实现稻秸中三种成分的化学成像分析,该研究有助揭示碱处理促进秸秆厌氧发酵产沼气的作用机理。相似文献

10.

Catalytic Combustion of Methane over MnOx／ZrO2-Al2O3 Catalysts 总被引：4，自引：0，他引：4

XiufengXu YanfeiPan YanxiaLiu ZhanghuaiSuo ShixueQi LidunAn 《天然气化学杂志》2003,12(4):228-232

MnOx/Al2O3 and MnOx/ZrO2-Al2O3 catalysts were prepared by incipient wetness impregnation of Mn(CH3COO)2 on the corresponding supports, followed by the characterization using X-ray diffraction (XRD). temperature programmed reduction (TPR) and BET surface area techniques. The result shows the BET surface area of ZrO2-Al2O3 is lower than that of Al2O3 due to the loading of ZrO2.However tile resulted MnOx/ZrO2-Al2O3 catalyst exhibits higher activity for methane combustion than MnOx/Al2O3, because the addition of ZrO2 onto Al2O3 is beneficial for the dispersion of Mn species and the improvement of the lattice oxygen activity in MnOx. subsequently the activation of methane during combustion. The optimum loading of Zr in MnOx/ZrO2-Al2O3 is in the range of 5%-10% correlated with the calcination temperatures of catalyst supports. 相似文献