【摘 要】
:
Coke oven gas (COG) is one of the most important by-products in steel industry,and the conversion of COG to value-added products has attracted much attention from both economic and environmental views.In this work,we use the chemical looping reforming tec
【机 构】
:
State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization,Kunming University of S
论文部分内容阅读
Coke oven gas (COG) is one of the most important by-products in steel industry,and the conversion of COG to value-added products has attracted much attention from both economic and environmental views.In this work,we use the chemical looping reforming technology to produce pure H2 from COG.A series of La1-xSrxFeO3 (x =0,0.2,0.3,0.4,0.5,0.6) perovskite oxides were prepared as oxygen carriers for this purpose.The reduction behaviors of La1-xSrxFeO3 perovskite by different reducing gases (H2,CO,CH4 and the mixed gases) are investigated to discuss the competition effect of different components in COG for reacting with the oxygen carriers.The results show that reduction tem-peratures of H2 and CO are much lower than that of CH4,and high temperatures (> 800 ℃) are requested for selective oxidation of methane to syngas.The co-existence of CO and H2 shows weak effect on the equilibrium of methane conversion at high temperatures,but the oxidation of methane to syngas can inhibit the consumption of CO and H2.The doping of suitable amounts of Sr in LaFeO3 perovskite (e.g.,Lao.sSro.sFeO3)significantly promotes the activity for selective oxidation of methane to syngas and inhibits the formation of carbon deposition,obtaining both high methane conversion in the COG oxidation step and high hydrogen yield in the water splitting step.The Lao.sSro.sFeO3 shows the highest methane conversion (67.82%),hydrogen yield (3.34 mmol g-1) and hydrogen purity (99.85%).The hydrogen yield in water splitting step is treble as high as the hydrogen consumption in reduction step.These results reveal that chemical looping reforming of COG to produce pure H2 is feasible,and an O2-assistant chemical looping reforming process can further improves the redox stability of oxygen carrier.
其他文献
牵引电机自动清扫设备是由朔黄铁路与科研单位联合研制,旨在解决牵引电机传统作业模式“脏、乱、吵”的问题,改善员工作业环境,提高作业效率.设备基于工业机器人技术、高效除尘技术、高精度RGV定位技术等,将牵引电机的清洁工作科学分解,作业过程不再需要人员直接介入,电机表面、定子内部、电枢内部的清洁工作均有工业机器人和专用自动化设备完成.自正式投入使用至今,设备使用情况良好,本文将对设备应用现状进行分析,并提出改进意见和改进措施.
机电一体化技术在机械制造行业中具有十分广泛的应用,并且应用机电一体化技术可以充分实现机械制造相关设备使用性能的最大程度发挥,在提升机械制造生产工作效率的同时进一步提升工业生产经济效益.本文先以机电一体化技术在机械制造业中的作用分析作为论述切入点,再简要介绍机电一体化技术在机械制造业的具体应用,最后对机电一体化技术未来发展趋势加以分析,共同为我国机电一体化技术在机械制造行业中的应用提供思路.
建筑顶部设置造型或设备层时,常因其层高较小,侧向刚度较大,造成下部楼层与其刚度比或抗剪承载力之比超规范限值.采用有限元软件分析小震弹性状态下的受力状况和变形特征、以及罕遇地震作用下的弹塑性变形情况,解析房屋顶部刚度突变对结构抗震性能的影响.
Microbial fuel cells (MFCs) have gained remarkable attention as a novel wastewater treatment that simultaneously generates electricity.The low activity of the oxygen reduction reaction (ORR) remains one of the most critical bottlenecks limiting the develo
The semi-interpenetrating network anion exchange membranes (AEMs) based on quaternized polyvinyl alcohol (QPVA) and poly(-diallyldimethylammonium chloride) (PDDA) are synthesized.The chemical cross-linking structure is formed between hydroxyl groups of QP
建设太阳能光伏发电工程,符合国家新能源产业政策和内蒙古地区电源规划原则.开发新能源是我国能源发展战略的重要组成部分,我国政府对此十分重视.在太阳能光伏电站项目中,光伏板支架及基础是整个光伏电站项目投资的重要组成部分,而在光伏板支架及基础的设计过程中,风荷载是光伏板支架设计中的控制荷载,对光伏电站中风荷载的取值进行更为细致的研究,对光伏电站项目而言都具有极为重要的意义.
TBM各结构件不仅重量惊人,而且技术含量高,运转时要求具有高度的可靠性、安全性.因此整机的组装是重点,尤其是大件吊装,吊装前确定其重量,并经安全计算分析,选择相匹配的吊具、索具,平稳吊装,做到万无一失.
近些年,我国科学技术的革新,BIM(Building Information Modeling)技术在高速公路施工安全管理中得到了普遍应用.在道路建设项目中,BIM技术可以用于创建工程项目信息模型,直观、简单地描绘具体工程及其实施过程,还可以辅助工程各环节参与者根据需要使用数字模型进行动态计算或查询,实现准确的信息交流.本文主要介绍了BIM技术的发展以及如何应用这项技术解决高速公路工程项目管理中的问题.
芬太尼透皮贴剂1990年在美国上市,于1999年在我国批准上市,具有释药速率稳定,作用时间长达72 h,使用方便等特点,已成为目前临床应用最为广泛的癌症镇痛药物之一.2018年WHO成人和青少年癌痛的药物和放射治疗管理指南中提出芬太尼透皮贴剂是癌性疼痛常用的强阿片类镇痛药[1],并于2019年纳入WHO基本药物清单[2].
各位代表:rn大家上午好!rn正值全国深入贯彻习近平总书记“七一”重要讲话、奋力开拓“十四五”新发展格局之际,中国轻工业联合会隆重召开全国轻工业科技创新与产业发展大会,总结“十三五”发展成就,分析新机遇、新挑战,部署“十四五”重点工作,很有必要,意义重大.