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Investigation of the effects of pressure and hydrogen concentration on ammonia synthesis under neutron irradiationDurfee, Robert Lewis January 1958 (has links)
The purpose of this investigation was to determine the effects of mild pressures and hydrogen concentrations on the formation of ammonia by slow neutron irradiation of gaseous hydrogen-nitrogen systems. A secondary purpose of this investigation was to determine the effects of neutron irradiation on ammonia synthesis.
Apparatus consisted of two parallel reaction tubes identical except that one was under an average neutron flux of 700 neutrons per square centimeter-second in a paraffin howitzer. The reaction tubes were of pyrex with inside diameter of two inches and length of four feet. Ammonia produced was absorbed in ten-milliliter portions of very dilute hydrochloric acid, and the rinsings from the tube walls were added to the sample. Analyses of the samples were made with Nessler’s reagent and a colorimeter.
Tests were performed at pressures of 3.0, 4.0, and 5.0 atmospheres and at hydrogen-nitrogen molar ratios of 3.0 and 6.0. Reaction time was 24 hours, and average total flux was 6.05 x 10⁷ neutrons per square centimeter.
It was found that the amount of ammonia formed in the irradiated reaction tube was from 4 percent to 73 percent greater than the amount formed without irradiation, the results for testing the effects of ratio of reactants and of pressure were too scattered to permit any valid conclusions, and that ammonia synthesis under neutron irradiation is worthy of further study as a possible industrial process. / Master of Science
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Development of Early Transition Metal Hydride Catalysts for Ammonia Synthesis / アンモニア合成触媒用の前期遷移金属ヒドリド化合物の開拓Cao, Yu 23 March 2023 (has links)
京都大学 / 新制・課程博士 / 博士(工学) / 甲第24628号 / 工博第5134号 / 新制||工||1981(附属図書館) / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授 陰山 洋, 教授 阿部 竜, 教授 藤原 哲晶 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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Novel electrocatalytic membrane for ammonia synthesisKlinsrisuk, Sujitra January 2010 (has links)
Novel ceramic membrane cells of BaCe₀.₅Zr₀.₃Y₀.₁₆Zn₀.₀₄O[subscript(3-δ)] (BCZYZ), a proton-conducting oxide, have been developed for electrocatalytic ammonia synthesis. Unlike the industrial Haber-Bosch process, in this work an attempt to synthesise ammonia at atmospheric pressure has been made. The membrane cell fabricated by tape casting and solution impregnation comprises of a 200 μm-thick BCZYZ electrolyte and impregnated electrode composites. Electrocatalysts for anode and cathode were investigated. For the anode, the co-impregnation of Ni and CeO₂ provided excellent electrode performance including high catalytic activity, sintering stability and compatibility with the BCZYZ electrolyte. The best composition was the mixture of 25 wt% NiO and 10 wt% CeO₂. A symmetrical cell prepared with this electrode composition revealed low polarisation resistances of 1.0 and 0.45 Ωcm² in humidified 5% H₂/Ar at 400 and 500 °C, respectively. For the cathode, 25 wt% of impregnated Fe oxide provided a satisfactory performance in non-humidified N₂ atmosphere. Significant amounts of ammonia were produced from the single cell with Ni-CeO₂ anode and Fe oxide cathode at 400-500 °C under atmospheric pressure. Ammonia formation rate was enhanced by Pd catalyst addition and electrochemical performance was improved by Ru addition. The highest ammonia formation rate of 4 x 10⁻⁹ mols⁻¹cm⁻² was attained using the cell with a Pd-modified Fe cathode at 450 °C. The formation reaction of ammonia typically consumed around 1-2.5 % of total applied current while most of the applied current was employed in H⁺ reduction. The total current efficiency of around 90-100 % could be obtained from the membrane cells.
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Supported Ru Based Ammonia Synthesis CatalystsAslan, Mustafa Yasin 01 October 2012 (has links) (PDF)
Ru/C type ammonia synthesis catalysts are known to be poisoned by hydrogen. In order to elucidate a mechanism for hydrogen poisoning, H2 adsorption and spillover on Ru based ammonia synthesis catalysts were investigated.
Supported Ru catalysts and Na promoted Ru catalyst were prepared by incipient wetness impregnation of Ru(NO)(NO3)3 on SiO2, SBA-15, CNT and Vulcan supports. Dispersion value of the catalysts was determined via H2 chemisorption and Transmission Electron Microscopy (TEM) characterization techniques. Over SBA-15 support, the dispersion of the catalyst determined by two different characterization techniques were in agreement. On the other hand, over CNT and SiO2 supports dispersion measured by TEM characterization method was higher than H2 chemisorption method.
H2 chemisorption measurements performed over extended periods of time were used to determine the spilled over hydrogen amounts over Ru/Vulcan and Na-Ru/Vulcan catalysts at 375 torr and 10 torr H2 pressure at room temperature. By using H2 uptake data measured for extended periods of 6 &ndash / 24 hours, diffusion coefficient of hydrogen species over Vulcan support was calculated assuming a point source diffusion mechanism. Coefficient of diffusion for Ru/Vulcan and Na-Ru/Vulcan was found as 1.39 x 10-14 cm2/sec and 1.23 x 10-14 cm2/sec, respectively at 375 torr. Similarly, at 10 torr, diffusion coefficients of Ru/Vulcan and Na-Ru/Vulcan catalysts were determined as 1.51 x 10-15 cm2/sec and 1.81 x 10-15 cm2/sec, respectively.
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Experimental study of ammonia fuel cellsFournier, Guillaume January 2006 (has links)
The purpose of this thesis was to carry out the experimental study of direct ammonia fuel cells. The use of hydrogen in fuel cells poses a lot of problems. There is a lot of safety, technical and economic issues to be overcome to make its use as a fuel widespread. Ammonia is being considered as a very promising source of hydrogen for fuel cells. However, until now its use in fuel cells has received very little attention. Ammonia presents many advantages over hydrogen and other potential sources of hydrogen such as an easy storage and a world-wide distribution network. Ammonia is a suitable hydrogen carrier and can be easily cracked at high temperatures such as those used in solid oxide fuel cells. The present study was conducting using ammonia as fuel and argon as carrier gas in different solid oxide fuel cell systems: an annular design, a planar design and a micro laminated reactor. The electrolyte materials were calcia stabilized zirconia and yttria stabilized zirconia. As far as the electrodes are concerned, silver, platinum and nickel cermet were used as anode/materials and silver was employed as cathode material. The cell yoltage was measured as function of reactor configuration, space time, ammonia flow rate and ammonia concentration. The results demonstrate the high potential of ammonia over hydrogen when nickel is used as anode material. Solid proton conducting fuel cells operating on ammonia fuel were also studied. The electrolyte materials were fabricated from neodymium and gadolinium doped barium and strontium cerates. The dopant fraction ranged from 1 to 20 wt%. Silver was employed as cathode and anode material and was spray deposited. The application of proton conducting electrolytes results in higher current densities for a given voltage than the using typical oxide ion conductors such as 8mol % yttria stabilized zirconia. The potential of the proton conducting materials for application in ammonia synthesis at atmospheric pressure was also studied. They demonstrated promising results and could prove to be an alternative to the common ammonia synthesis processes.
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Comparing B3LYP and its dispersion-corrected form to B97-D3 for studying adsorption and vibrational spectra in nitrogen reductionGrossman, Esther Florence 19 August 2019 (has links)
No description available.
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Studies on perovskite oxyhydrides: catalysis and hydride anion diffusion / ぺロブスカイト型酸水素化物の触媒活性およびヒドリドの拡散機構Tang, Ya 23 May 2018 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21271号 / 工博第4499号 / 新制||工||1700(附属図書館) / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授 陰山 洋, 教授 江口 浩一, 教授 阿部 竜 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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Studies of Promoted And Supported Catalysts With An Electron Probe Microanalyzer / Electron Probe Studies of Promoted and Supported CatalystsChen, Hong-Chiu 05 1900 (has links)
<p> Promoted and supported catalysts were studied with
an electron probe microanalyzer. Investigations we re made on promoted fused iron ammonia synthesis catalysts regardirlg the general morphology of the catalysts, the distribution of promoters, and the reduction and poisoning processes . The effect of the promoters on the reduction process , the effect of the impurity silica on the promoter distributions and the nature of the poisoning are discussed. Supported catalysts were prepared by impregnating porous y-alumina spheres with solutions of chromium and/or copper compounds. Concentration profiles for chromium and/or copper , i.e., concentration as a function of distance from the center, were determined on sectioned spheres. Different distributions of these elements on the alumina support were obtained by varying the chemical used, the concentration and the amount of the solution impregnated. Explanations are given for the physical and chemical processes involved during the impregnation . The amount of chromium or copper impregnated is compared with the amount present in each particle. </p> / Thesis / Doctor of Philosophy (PhD)
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Synthesis and Structures of Compounds with Anion-Derived Functions / アニオン由来の機能をもつ化合物の合成と構造Goto, Yoshihiro 24 November 2021 (has links)
京都大学 / 新制・論文博士 / 博士(工学) / 乙第13457号 / 論工博第4197号 / 新制||工||1770(附属図書館) / (主査)教授 陰山 洋, 教授 安部 武志, 教授 江口 浩一 / 学位規則第4条第2項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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[en] THE STUDY OF METAL-SUPPORT INTERACTION ON BARIUM AND CESIUM PROMOTED RUTHENIUM CATALYSTS FOR THE AMMONIA SYNTHESIS / [pt] ESTUDO DA INTERAÇÃO METAL-SUPORTE EM CATALISADORES DE RUTÊNIO PROMOVIDOS POR BÁRIO E CÉSIO PARA A SÍNTESE DE AMÔNIAMONICA PIRES NERY 24 June 2005 (has links)
[pt] O processo industrial para a síntese de amônia utiliza um
catalisador de
ferro triplamente promovido, operando em condições
drásticas a temperaturas
entre 400 e 700°C e a uma pressão bastante elevada
(aproximadamente 300
atm). Novos
catalisadores vêm sendo estudados, em substituição ao
ferro, para aumentar ainda
mais a produção de NH3. A principal vantagem dos
catalisadores a base de rutênio
é que eles são menos sensíveis à contaminação pela amônia
que os catalisadores a
base de ferro. O objetivo deste trabalho foi avaliar
catalisadores de rutênio
suportados em zeólitas e hidrotalcita promovidos por
cátions básicos para a
síntese de amônia. Foi verificada a influência do tipo de
suporte nos catalisadores
de rutênio, do tipo e forma de introdução dos precursores
de rutênio, o papel da
adição de cátions promotores (Ba e Cs) sobre a interação
metal-suporte e na
atividade dos catalisadores de rutênio na reação de
síntese de amônia. Os
catalisadores de rutênio suportados na hidrotalcita
apresentaram as maiores
conversões na reação de síntese de amônia. Eles
apresentaram os mais altos níveis
de dispersão e redução das partículas metálicas. O bário,
apesar de ter diminuído
menos a interação do rutênio com o suporte, se mostrou um
promotor mais efetivo
na reação de síntese de amônia que o césio. A ordem de
introdução do bário
apresentou efeitos diferentes, dependendo do suporte,
sobre o desempenho dos
catalisadores de rutênio. O método de impregnação com
carbonila de rutênio se
mostrou o mais efetivo, conduzindo a catalisadores de
rutênio mais básicos e mais
ativos na reação de síntese de amônia. / [en] The industrial ammonia synthesis process uses a triple
promoted iron catalyst,
operating at drastic temperature conditions between 673K
and 973K, and high
pressure (300atm). New catalysts have been studied,
replacing iron, to increase
NH3 production. The main advantage of Ru-based catalysts
is that they are less
sensitive to poisoning by ammonia than Fe-based catalysts.
The aim of this work
was to evaluate ruthenium catalysts supported on zeolites
and hydrotalcite
promoted by basic cations for ammonia synthesis reaction.
The influence of the
support type on the ruthenium catalysts and of
introduction way of the ruthenium
precursors was verified. Also the hole of the cationic
promoters (Ba and Cs) on
the metal-support interaction and on the ruthenium
catalysts activity in the
ammonia synthesis reaction was examined. The ruthenium
catalysts supported on
hydrotalcite had the highest conversion in the ammonia
synthesis reaction. They
presented the highest degrees of dispersion and reduction
of metallic particles.
The barium, despite having decreased the interaction
between the ruthenium and
the support, showed to be a more effective promoter on the
synthesis of ammonia
than the cesium. The barium introduction order resulted in
different effects over
the ruthenium catalysts performance depending on the
support. The impregnation
method with ruthenium carbonil was the most effective,
leading to more basic
ruthenium catalysts and more actives in the ammonia
synthesis reaction.
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