首页> 美国政府科技报告 >Conversion of Hydrocarbons for Fuel-Cell Applications. Part I. Autothermal Reforming of Sulfur-Free and Sulfur-Containing Hydrocarbon Liquids. Part II. Steam Reforming of n-Hexane on Pellet and Monolithic Catalyst Beds. Final Repo

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Conversion of Hydrocarbons for Fuel-Cell Applications. Part I. Autothermal Reforming of Sulfur-Free and Sulfur-Containing Hydrocarbon Liquids. Part II. Steam Reforming of n-Hexane on Pellet and Monolithic Catalyst Beds. Final Repo

机译：用于燃料电池应用的碳氢化合物转化。第一部分。无硫和含硫烃类液体的自热重整。第二部分。正己烷在颗粒和整体催化剂床上的蒸汽重整。最后的回购

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Experimental autothermal reforming (ATR) results obtained in the previous phase of this work with sulfur-free pure hydrocarbon liquids are summarized. Catalyst types and configuration used were the same as in earlier tests with No. 2 fuel oil to facilitate comparisons. Fuel oil has been found to form carbon in ATR at conditions much milder than those predicted by equilibrium. Reactive differences between paraffins and aromatics in ATR, and thus the formation of different carbon precursors, have been shown to be responsible for the observed carbon formation characteristics (fuel-specific). From tests with both light and heavy paraffins and aromatics, it is concluded that high boiling point hydrocarbons and polynuclear aromatics enhance the propensity for carbon formation in ATR. Effects of olefin (propylene) addition on the ATR performance of benzene are described. In ATR tests with mixtures of paraffins and aromatics (n-tetradecane and benzene) synergistic effects on conversion characteristics were identified. Comparisons of the No. 2 fuel oil data with the experimental results from this work with pure (and mixed) sulfur-free hydrocarbons indicate that the sulfur content of the fuel may be the limiting factor for efficient ATR operation. Steam reforming of hydrocarbons in conventional reformers is heat transfer limited. Steam reforming tasks performed have included performance comparisons between conventional pellet beds and honeycomb monolith catalysts. Metal-supported monoliths offer higher structural stability than ceramic supports, and have a higher thermal conductivity. Data from two metal monoliths of different catalyst (nickel) loading were compared to pellets under the same operating conditions. (ERA citation 07:046074)

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Flytzani-Stephanopoulos, M.; Voecks, G. E.;
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年度 1981
页码 1-129
总页数 129
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Hydrogen production; Hydrogen generators; Hydrogen fuel cells; Autothermal reformer processes; Steam reformer processes; Hexane; Sulfur content; Hydrocarbons; Thiophene; Research programs; Design; Catalysts;

机译：氢气生产;氢气发生器;氢燃料电池;自热重整器工艺;蒸汽重整器工艺;己烷;硫含量;碳氢化合物;噻吩;研究计划;设计;催化剂;

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1. Effects of small MoO3 additions on the properties of nickel catalysts for the steam reforming of hydrocarbons II. Ni-Mo/Al2O3 catalysts in reforming, hydrogenolysis and cracking of n-butane [J] . Borowiecki T., Giecko G., Panczyk M. Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2002,第1a2期

机译：MoO3的少量添加对碳氢化合物蒸汽重整用镍催化剂性能的影响II。 Ni-Mo / Al2O3催化剂在正丁烷的重整，氢解和裂化中
2. Hydrogen production by autothermal reforming of sulfur-containing hydrocarbons over re-modified Ni/Sr/ZrO2 catalysts [J] . Murata K, Saito M, Inaba M, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2007,第26期

机译：在改性Ni / Sr / ZrO2催化剂上通过自热重整含硫烃制氢
3. Steam reforming of liquid hydrocarbon fuels for micro-fuel cells.Pre-reforming of model jet fuels over supported metal catalysts [J] . Jian Zheng, James Jon Strohm, Chunshan Song Fuel Processing Technology . 2008,第4期

机译：用于微型燃料电池的液态烃燃料的蒸汽重整。在载体金属催化剂上对模型喷气燃料进行预重整
4. HYDROGEN PRODUCTION OF A HEAVY HYDROCARBON FUEL AUTOTHERMAL REFORMER ON NiO-Rh BASED MONOLITHIC CATALYSTS [C] . Xinhai Xu, Shuyang Zhang, Peiwen Li ASME fuel cell science, engineering, and technology conference . 2014

机译：基于NiO-Rh的单分子催化剂在重烃燃料自热重整器中制氢
5. PART I. CATALYTIC HYDROCARBON REFORMING BY TECHNETIUM CATALYSTS. PART II. ACETONE AZINE AND 3,5,5-TRIMETHYL-2-PYRAZOLINE ADDUCTS OF PALLADIUM-CHLORIDE. [D] . PALMER, JAMES LYNN. 1974

机译：第一部分：BY催化剂催化的烃重整。第二部分丙酮嗪和3,5,5-三甲基-2-吡唑啉-氯化钯的添加剂。
6. Steam reforming of hydrocarbons on noble metal catalysts. (Part 8). Steam reforming of methane on supported ruthenium catalysts. [O] . Eiichi KIKUCHI, Shigeyuki UEMIYA, Akira KOYAMA, 1990

机译：贵金属催化剂碳氢化合物的蒸汽重整。（第8部分）。支持钌催化剂上甲烷的蒸汽重整。
7. Conversion of Hydrocarbons for Fuel Cell Applications. Part 1: Autothermal Reforming of Sulfur-Free and Sulfur-Containing Hydrocarbon Liquids. Part 2: Steam Reforming of n-Hexane on Pellet and Monolithic Catalyst Beds [R] . Flytzani-stephanopoulos, M., Voecks, G. E. 1981

机译：用于燃料电池应用的碳氢化合物的转化。第1部分：无硫和含硫烃类液体的自热重整。第2部分：在颗粒和整体催化剂床上蒸馏重整正己烷

Conversion of Hydrocarbons for Fuel-Cell Applications. Part I. Autothermal Reforming of Sulfur-Free and Sulfur-Containing Hydrocarbon Liquids. Part II. Steam Reforming of n-Hexane on Pellet and Monolithic Catalyst Beds. Final Repo

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